Pre NEET
Pediatrics
Taruna Mehra MBBS MD PEDIATRICS (MAMC)
®
JAYP JA YPEE EE BR BROT OTHE HERS RS MED MEDICA ICAL L PUBL PUBLISH ISHERS ERS (P) LTD New Delhi • Panama City • London • Dhaka • Kathmandu
Pre NEET
Pediatrics
Taruna Mehra MBBS MD PEDIATRICS (MAMC)
®
JAYP JA YPEE EE BR BROT OTHE HERS RS MED MEDICA ICAL L PUBL PUBLISH ISHERS ERS (P) LTD New Delhi • Panama City • London • Dhaka • Kathmandu
®
Jaypee Brothers Medical Publishers (P) Ltd Headquarters Jaypee Brothers Medical Publishers (P) Ltd 4838/24, Ansari Road, Daryaganj New Delhi 110 002, India Phone: +91-11-43574357 Fax: +91-11-43574314 Email:
[email protected] [email protected] om Overseas Offices J.P. Medical Ltd 83, Victoria Street, London S W 1H 0H W ( U K ) Phone: +44-2031708910 Fax: +02-03-0086180 Email: in
[email protected]
Jaypee-Highlights Medical Publishers Inc. C i t y o f K now l ed ge, B l d. 2 37, C l ay t on P a nam a C i t y , P an am a Phone: +507-301-0496 Fax: +507-301-0499 Email: cs
[email protected]
Jaypee Bro Jaypee Brothe thers rs Medic Medical al Publi Publishe shers rs (P) (P) Ltd 17/1 /1--B Ba Babar Ro Road, Bl Block-B, Sh Shaymali Mohammadpur, Dhaka-1207 B angl ades h Mobile: +08801912003485 Email:
[email protected] Website: www.jaypeeb www.jaypeebrothers.com rothers.com Website: www.jaypeedi www.jaypeedigital.com gital.com
Jaypee Brot Jaypee Brothe hers rs Medic Medical al Publi Publishe shers rs (P) (P) Ltd Shorakhute, Ka Katthmandu Nepal Phone: +00977-9841528578 Email:
[email protected]
© 2013, Jaypee Brothers Brot hers Medical Publishers Publ ishers All rights reserved. No part of this book may book may be reproduced in any form or by any means without the prior permission of the publisher. Inquiries for bulk sales may be solicited at: jaypee@jay at: jaypee@jaypeebrothers peebrothers.com .com This book has been published in good faith that the contents provided by the author author contained contained herein are original, and is intended for educational purposes only. While every effort is made to ensure accuracy of information, the publisher and the author(s) author(s) specifically specifically disclaim any damage, liability, or loss incurred, directly or indirectly, from the use or application of any of the contents of this work. If not specifically stated, all figures and tables are courtesy of the author(s).. Where appropriate, the readers should consult with a specialist or contact the author(s) manufacturer of the drug or device. Pre NEET Pediatrics
First Edition: 2013 Edition: 2013 ISBN : 978-93-5090 978-93-5090-314-8 -314-8 Printed at
Dedication I dedicate my work to my teachers,my parents and most importantly my patients.
Preface Why should I change anything in your life till the time you decide to change yourself… Quran With the challenging task ahead in month of November and December with all the major m ajor exams within a period of 20 2 0 days, days , the committ committee ee has decided to release Pre NEET Pediatrics Pediatrics inclusive inclu sive of DNB questions and important last minute revision points so that you are confident in attempting maximum questions in all the exams exams.This .This book has been written keeping in mind that maximum time taken to revise pediatrics is less than one day. All the best be st may God help he lp you cross the t he bridge Taruna Mehra
“Do not count the days make the days count”
From Fr om the Publisher’s Desk Des k
We request all the readers to provide us their valuable suggestions/errors (if any) at: jaypeemcqproduc
[email protected] [email protected] om so as to help us in further improvement of this book in the subsequent edition.
Contents 1. Pediatrics in Last Minutes ..........................
1 – 65
2. Pre NEET Pediatric Questions ....................
66 – 77
3. Pr Pre e NE NEET ET Ped edia iatr tric ic An Answ swer ers s .. .... .... .... .... .... .... .... .... .... .... ....
78 – 15 150 0
4. Pr Prev evio ious us Yea ear’ r’s s Que Quest stio ions ns of DN DNB B .. .... .... .... .... .... .... .. 15 151 1 – 17 174 4
PEDIATRICS in Last Minutes
Developmental Milestones Age
Gross motor
Fine motor
1 mo
Momentarily lifts Has tight grasp, Responds to head when prone follows objects sound of bell to midline
2 mo
Holds head in No longer midline. Lifts clenches fist chest when prone tightly, follows objects past midline
3 mo
Head holding achieved
Follows moving objects in a circular fashion, converges and focuses
Language
Social Regards face intently
Smiles after Recognize being stoked or parent, social talked to smile
Coos (produces vowel sounds in a musical fashion), laughs aloud
Reaches for familiar people or objects, anticipates feeding
4-5 mo Rolls over, sits with support
Enjoys looking Grasps objects/ Orients to around voice/bell rattle crudely environment (localizes laterlly); "ahgoo", razzes
6 mo
Transfers objects from one hand to another
9 mo
Takes foot to mouth, lifts head and upper chest with support
Uses pincer Sits unassisted (8 grasp, probes mo), Crawls, with forefinger, cruises, pulls to holds feeding stand bottle
Babbles
Stranger anxiety, smiles back at mirror image of self
Responds to name, says mama/dada (non-specific)
Responds to social play, plays pat-acake, starts to explore environment (9-10 mo) Contd...
2
Pre-NEET Pediatrics
Contd... Age
Gross motor
Fine motor
10 mo Pulls from supine to sitting; from sitting to standing, stands holding furniture
Language
Social
Understands to some "mama"
Gives hand held Says 'mama, Imitates actions objects to dada' (specific) mother when asked, turns 2-3 pages at a time
12 mo
15 mo Walks well without support, Walks backwards and sideways 18 mo Starts to run, climb stairs with help
Uses 3-5 words Temper meaningfully tantrums, separation anxiety Makes a tower of 3-4 cubes, scribbles spontaneously, may draw a vertical line
About 10 words Copies parents in tasks, toilet spoken including name training started
2 yrs
Runs well, climbs stairs alone; walks on tiptoes (30 months)
Makes a tower of 6-7 cubes, turns one page of a book at a time, may draw horizontal line
Points to at least one named body part, simple 2 word sentences (2 words at 2 years)
Follows 2-step commands
3 yrs
Pedals tricycle, jumps with both feet off ground, can alternate feet when climbing stairs
Make a tower of 9-10 cubes, draws (copies) a circle
Uses plurals, 3 word sentences (3 word at 3 years)
Dresses and undresses partially buttons/ unbuttons
4 yrs
Hops, alternates feet going downstairs (At 4 yr hop off the floor)
Draws (copies) a Cross
Knows colours
Buttons clothing fully, plays with other children
5 yrs
Jumps on one foot, heel to toe walk
Draws (copies) a Square
Dresses without supervision
Pediatrics in Last Minutes
g n i d d e h S t a e g A
r a l u b i d n a M y r a l l i x a M r u a l u b i d n a M
n o i t p u r E t a e g y A r a l l i x a M t A e t e l p m o C
n o i t a c i f i c l a C t A s n i g e B
r r r y y r r y 2 3 y y 1 1 1 7 8 – – - 1 – 7 – 0 1 6 9 1 1 r r r y y y r r 2 2 y y 2 l 1 1 8 9 – – – – – 1 0 0 7 8 1 1 1
o o o o m m m o m 6 0 m 0 0 2 1 3 7 1 – – – – – 6 0 0 5 7 1 1 2
r y 7 6
r y 7 6
r y 3 1 2 1
r y 2 2 7 1
r y 2 1 0 1
r y 7 6
r y 3 1 2 1
r y 2 2 7 1
r y 4 1 2 1
r y 0 1 9
r y 6 1 4 1
r y 5 2 8 1
r y 8 7
r y 1 1 9
r y 2 1 0 1
r y 3 1 1 1
r y 1 1 0 1
r y 3 1 2 1
o o o o m m m o m 6 0 m 1 0 2 1 3 8 1 – – – – – 6 0 0 6 8 1 1 2
r y 8 7
r y 9 8
r y 2 l 1 1
o o o o m m m m 4 4 6 0 o 2 2 3 3 m – – – – 8 8 0 4 6 1 1 3 2 3
r y 0 1 9
r y 1 1 0 1
r y 5 1 2 1
o o o o o m m m m m l l l l l a t a t a t a t a t e e f e f f e f e f h t h t t h t h t h 5 5 6 5 6
o m o 2 m 4 1 - o o 0 3 , o m m o 1 d 1 0 , m x n m 2 t - 3 - h 4 5 r a a - 8 4 i 3 M M 4 1 2 B
) s e s s s h r r r i t o o n a n e i l s s a s o e c i c r T n c ( n a m i i s l y l r a l d o d i a t r a r p t m n o e m n c t s s i r r e a u i e P C L C F S
h t e e t y r a d n o c e S
s r o s i c n i l a r t n e C
s r o s i c n i l a r e t a L
) s e n i n a c ( s d i p s u C
r y r 0 y 1 o 9 8 m 7 , 6 , d 3 - x n 0 a a 3 M M
) ) s s d i d i p p s s u u c c s i s i b b ( ( s s r s r r a a a s l l s l r o o r o a l a m m l m o d o e d r n m n m p o t o d t r c s c i s r e i r e h i F S F S T
3
4
Pre-NEET Pediatrics
•
Delayed eruption is usually considered when there are no teeth by approximately 13 months of age.
•
Causes of delayed eruption
–
Idiopathic (most common), Trisomy 21, Hypopituitarism, Trisomy 21 (Down syndrome)
–
H yp ot hy ro id is m, – F am il ia l, Hy po pa ra th yr oi di sm , Cleidocranial dysplasia Remember
•
Central incisors is first to develop in primary dentition.
•
1st molar is first to develop in secondary dentition.
•
Second molar is last to develop in primary dentition.
•
Third molar is last to develop in secondary dentition. Weight
10% of body weight lost in first few days of life; regained by 2 weeks. Birth weight doubles by 4 months, triples by 12 months, quadruples by 24 months.
Height
Height is increased by 50% at 1 year of age, doubles at 4 years and triples at 13 years.
Head circumference
Measured during 1-3 years of life 5 cm growth during age 0-3 months; 4 cm in 3-6 months, 2cm in 6-9 months and 1cm in 9-12 months. (newborn = 35 cm; 3 months = 40 cm, 9 months 45 cm, 3 years =50 cm, 9 years = 55cm.
SURVEILLANCE OF GROWHAND DEVELOPMENT Surveillance of growth and development is an important component of the routine anticipatory care of children.
The main purpose of growth surveillance is to identify those children who are not growing normally. Surveillance for physical growth can be done in following ways. 1. Weight for age
•
Measurement of weight and rate of gain in weight are the best single parameters for assessing physical growth. The weight should be carefully repeated at intervals: – Birth - 1 year Monthly – Second year Every two months –
2-5 years Every 3 months
Pediatrics in Last Minutes
5
•
These measurements when compared with the reference standards of weight of children of same age, the trend of growth becomes obvious.
•
Weight for age can be used to classify malnutrition and determine its prevalence.
•
80 % of the median weight for age of the reference is cut off point below which children should be considered malnourished.
2. Height for age
•
Height is a stable measurement of growth as opposed to body weight.
•
Whereas weight reflects only the present health status of the child, height indicates the events in the past also. Low height for age.
•
This is also known as nutritional stunting or dwarfing.
•
It reflects past or chronic malnutrition.
•
The cut off point commonly taken for the diagnosis of stunting is 90 percent of the united states NCHS height for age.
3. Weight for height
•
Weight in relation to height is now considered more important than weight alone. It helps to determine whether a child is within range of normal weight for his height.
•
Low weight for height
•
This is also known as nutritional wasting or emaciation (Acute malnutrition).
•
It is associated with increased risk of mortality and morbidity.
•
A child who is less than 70% of the expected weight for height is classed as severely wasted.
4. Head and chest circumference
•
Chest circumference At birth–Less than 2 cm from head circumference 6-9 months–Two measurements become equal >6–9 months–Overtakes head circumference
•
In severely malnourished children this overtaking may be delayed by 3 to 4 years.
6
Pre-NEET Pediatrics •
Wasting (deficit in weight for height) Acute malnutrition
•
Stunting (deficit in height for age) Chronic malnutrition
•
Wasting and stunting Acute on chronic malnutrition
•
Underweight (low weight for age) Combined indicator to reflect both acute and chronic malnutrition.
WHO Classification of Under Nutrition Moderate undernutrition • Weight for height (wasting) • Height for age (stunting)
SD score -2 to -3 (70-79% of expected) SD score -2 to -3 (85-89% of expected)
Severe undernutrition SD score <-3 ( <7 0% of e xpe ct ed ) SD score <-3 (<85% of expected)
Age-Independent Anthropometric Indices
Dugdale’s Rao’s Kanawati MAC (1-5 years)
Weight(kg)/ (height in cm)1.6 X 100 Weight(kg)/ (height in cm)2 X 100 Mid arm circumference (cm)/ Head circumference (cm) Midarm circumference
Normal
Severely malnourished
0.88-0.97 0.15-0.16 0.32-0.33
<0.79 <0.14 d”0.25 cm
>13.5
<12.5 cm
Gomez classification is a classification system to assess Protein Energy Malnutrition of PEM •
It is based on weight retardation
•
The child on the basis of his/her weight is compared with a ‘normal’ child of the same age
•
The ‘normal’ reference child is the 50th centile of the Boston standards
Weight for age (%): 90-110%: 75 – 89%: 60 – 74%: Under 60%:
Weight of child 100 Weight of normal child of same age Normal Nutritional status Mild Malnutrition (1st degree) Moderate Malnutrition (2nd degree) Severe Malnutrition (3rd degree)
Pediatrics in Last Minutes •
7
The Gomez system has distinct advantages and disadvantages Advantages
Disadvantages
• Classification is easy to compute as weight is a widely recorded parameter
• Classification has prognostic values for hospitalized patients (This is because the cut off values were set during a study of risk of death based on weight for age at admission to a hospital unit)
• Some normal children may be classified as 1st degree malnutrition because a cut-off point of 90 percent of reference is high. • Does not distinguish between sudden acute episode of malnutrition and along standing chronic malnutrition as observation only consider weight for age measurements.
Facts to remember regarding other classification systems for PEM:
•
Indian academy of Pediatrics (IAP) classification system is based on defecit in weight for age
•
Wellcome Trust classification system is based on deficit weight for age and presence or absence of edema.
•
Waterlow classification is based on Height for age (Stunting / Chronic PEM) measurments and Weight for Height measurments (Wasting /Acute) Drop in Height for Age Ratio – Chronic PEM or Stunting Drop in Weight for Height ratio – acute PEM or Wasting
•
WHO classification is also based on Height for Age and Weight for Height measurement.
Recommended daily intake of energy Group
Body weight Kg.
Infancy 0-6 months 7-12 months Children 1- 3 years 4- 6 years 7 - 9 years
Energy allowance per day K.Cals MJ
118 108 } K.Cal/kg/day
12.03 18.87 26.37
1240 1690 1950
5.1 7.0 8.1
8
Pre-NEET Pediatrics
Table Comparison of Human Milk and Cow’s Milk Parameter Bacterial contamination Anti-infective substances
Protein Total Casein Amino acids Cystine Taurine Fat Total Saturation of fatty acids Linoleic acid (essential) Cholesterol Lipase to digest fat Lactose Salts (mEq/1) Sodium Chloride Potassium Minerals (mEq/Il) Calcium Phosphate Iron
Vitamin
Human None Antibodies, Leukocytes, Lactoferrin Bifidus factor, Others
Cow Likely Not active
1% 0.5%
4% (too much) 3% (too much)
Enough for growing brain Enough for brain, retina and bile acid conjugation
Not enough
4% (average) Enough unsaturated Enough for growing brain Enough Present 7% (enough)
4% Too much saturated Not enough Not enough None 4.5%
6.5 (correct amount) 12 (correct amount) 14 (correct amount)
25 (too much) 29 (too much) 35 (too much)
350 (correct amount) 150 (correct amount) Small amount, but wellabsorbed (enough)
1,400 (too much) 900 (too much) Small amount, poorly absorbed (not enough) Extra needed
Enough
Pediatrics in Last Minutes
9
Approach to Short Stature
Bone-Age Bone age is delayed compared to chronological age:
•
In almost all cases of short stature
•
In case of constitutional delay, undernutrition and systemic illness, bone age is less than chronological age and equals height age.
•
In case of growth hormone deficiency and hypothyroidism, bone age may be even less than height age if the endocrine condition is diagnosed late.
Advanced bone age is common when a child has had prolonged elevation of sex steroid levels, as in:
10
Pre-NEET Pediatrics
•
Precocious puberty or congenital adrenal hyperplasia (A delayed bone age in congenital adrenal hyperplasia indicates glucocorticoid over-treatment.
•
Bone age may be significantly advanced in genetic overgrowth syndromes, such as Soto’s syndrome, Beckwith wideman syndrome, and Marshall Smith syndrome.
Delayed Bone age (Retarded skeletal maturation)
Chronic ill Health • • • • • • •
Congenital heart disease - cyanotic Renal failure Inflammatory bowel disease Malnutrition Rickets Maternal deprivation Any other chronic illnesses
Endocrine Disorders • • • •
Hypothyroidism Steroid therapy and Cushing’s disease Hypogonadism (including Turner’s syndrome) Hypopituitarism - panhypopituitarism, growth hormone deficiency, Laron dwarfism
Chromosome disorders •
Trisomy 21, Trisomy 18
Other Congenital Disorders • •
Bone dysplasias Malformation syndromes
Advanced Bone Age (Generalized Accelerated Skeletal Maturation)
Endocrine disorders •
Adrenal and gonadal tumours
Pediatrics in Last Minutes • • •
11
Hyperthyroidism Idiopathic sexual precocity Intracranial masses in the region of the hypothalamus (haniartoma, astrocytoma, optic chiasm glioma, hydrocephalus, encephalitis)
Congenital Disorders • • • • • • •
McCune Albright syndrome: polyostotic fibrous dysplasia with precocious puberty Cerebral gigantism (Soto’s syndrome) Lipodystrophy Pseudohypoparathyroidism Acrodysostosis Weaver smith syndrome Marshall syndrome
D/D of Rickets Serum Ca
Serum P043
Serum Alkaline
Serum Serum Parathormone HCO 3 phosphatase
Normal
9-10.5 mg/dl
3-4.5mg/dl
30-120 IU
10-55 units
Hypophosphatemic Rickets Vit D dependent Rickets Hyperparathyroidism Nutritional rickets Renal tubular acidosis (distal)
N
N
21-30 meqlL N
N/ (7.5-8)
N/
/N
N N
N
Enuresis •
Enuresis is defined as the voluntary or involuntary repeated discharge of urine into clothes or bed after a developmental age when bladder control should be established (mostly mental age of 5 years). • Diagnosis of enuresis requires voiding o f urine twice a week for 3 consecutive months or clinically significant distress in child’s life as a result of wetting. • Enuresis is more common in males than females • Most common cause of diurnal enuresis is micturition deferral (waiting until the last minute to void).
12
Pre-NEET Pediatrics
Treatment •
First line treatment for enuresis is behavioral therapy. It consists of rewarding the child for being dry at night, child should void before retiring and the use of conditioning devices (e.g. bed alarm that rings when the child wets a special sheet).
•
Consistent dry bed training with positive reinforcement has a success rate of 85% and bed and pad alarm systems have a success rate of approximately 75% with relapse rate that are lower than those with pharmacotherapy.
•
Pharmacotherapy is second line treatment and should be reserved for those patients who have failed behavioural therapy. Imipramine and desmopressin are two important drugs useful for enuresis.
•
Fast action of desmopressin (orally or intranasaly) suggests a role for special occassions when rapid control of enuresis is required. However, recurrence rate is very high.
•
Imipramine is associated with cardiac conduction disturbances and is deadly in overdose.
Pediatrics in Last Minutes
13
PRENATAL AND PERINATAL FACTORS AFFECTING FETUS Drugs Taken During Pregnancy And Their Adverse Effects - Teratogenic Drugs
Adverse effects Anticonvulsants
• Phenytoin
F et a l h y d a n t o i n s y n d r o m e (microcephaly, cleft palate,
• Carbamazepine • Phenobarbitone • Sodium vaiproate
hypoplastic changes, IUGR) Spina bifida, ? NTD Relatively safe Neural tube defect (1-2%), hypospadias, microstomia, developmental delay. Hormonal agents
• Corticosterojds • Diethyl stilbestrol
• Anti-thyroid drugs • Clomiphene • Synthetic progestins • Chloramphenicol • Sulphonamides • Tetracyclines • Aminoglycosides • Anti-malarials • Quinine, chloroquine
Growth retardation, cleft palate and lip (used as ‘mo rnin g-after’ pill) Vaginal adenosis in female offspring in adolescence C l e a r c e l l v a g i n a l adenocarcinoma in teenagers In male offspring (risk of testicular cancer in later life) Neonatal hypothyroidism and goiter NTD, multiple gestation, Down ’s syndro me Masculinization in female fetus, hypospadias Antibiotics ‘Gray baby syndrome’ (peripheral vascular collapses) Kernicterus, Methemoglobenemia Dental disc oloration (yellow) and deformity, Inhibition of bony growth, cataracts, Fetal ototoxic ity due to eighth N. damage Intra-uterine death Retinopathy, congenital deafness, comeal opacities Psychiatrics drugs and substances of abuse
• Lithium Ebstien’s anomaly • LSD (lysergic “fractured chromosomes” anomaly in fetus, stunted growth acid diethylamide) • Alcohol Foetal alcohol syndrome: prenatal-onset growth deficiency, developmental delay, facial dysmorphism (short palpebral fissures, ptosis, strabismus, ear abnormality, long philtrum with a thin upper lip), multiple joint anomalies and cardiac defects (ASD>VSD); mental subnormality Contd...
14
Pre-NEET Pediatrics
Contd... • Heroin • Cocaine • Beta-blockers
Irritability, hyperactivity, tremors Abruptio placentae, preterm labour, cerebral infarction Foetal bradycardia Anticoagulants
• Vitamin K (large dose) • Warfarin • Aspirin
Hyperbilirubinemia (hemolysis) and kernicterus Conradi’s syndrome: skeletal and facial anomalies, chondrodysplasia punctata, haemorrhage Haemorrhagic disease of newborn
Other Drugs • Cytotoxic drugs
Multiple foetal malformations and abortion
• Isotretinoin
CNS defects, facial palsy, deafness, cardiac defects
• Oxygen in high
Retrolentalfibroplasia and blindness (>35%)
concentrations • Thalidomide
Phocomelia (seal limbs), cardiac malformations
• Thiazide diuretics
Neonatal thrombocytopenia
• ACE inhibitors
Renal tubular dysgenesis, lung hypoplasia, anuria, oligohydramnios
• Misoprostol
Mobius syndrome, arthrogryposis
(prostaglandin) • Vitamin D
William
syndrome
(infantile
hypercalcemia,
supravalvular aortic stenosis, elfin facies)
Drugs taken during perinatal/neonatal period and their effects on the neonate • Oxytocin (used for induction of labour)
Hyperbilirubinemia in babies
• Prolonged cortisone
Adrenal crisis in infants
• NSAIDS
Premature closure of ductus arteriosus
• Dexamethasone
Periventricular leuocmalacia Medications to baby
• Chloramphenicol
Grey baby syndrome
• Erythromycin
Pyloric stenosis
• Vitamin K
Bleeding, hepatotoxicity
Pediatrics in Last Minutes
15
Maternal Conditions And Fetal Outcome Disease Bronchial asthma Chronic cardiac disease Chronic Crenal disease Hypertension Thyroid disorders
SLE Smoking
Outcome/Comment IUGR; Feal goiter and hypothyroidism (due to drugsbeta agonists) IUGR, abortion, asphyxia, prematurity IUGR, prematurity Placental vasculopathy, IUGR Mater nal hypothyroidism may cause congenit al hypothyroidism (TSH does NOT cross placental, barrir but LATS does) Congenital complete heart block, IUGR IUGR/LBW; Sudden infant death syndrome (SIDS); Increased ororfacial clefts in the fetus. Developmental lag for first few years of life: adverse effects on language skills and visual and spatial abilities.
NEONATOLOGY Five Cleans of Intranatal Care • • • • •
Clean hands Clean delivery surface Clean blade Clean cord Clean tie (for cord)
AAP- AHA Guidelines for Neonatal Resuscitation •
Initial steps DO NOT include giving supplemental oxygen. if cyanosis persist despite giving free flow oxygen, give positive pressure ventilation
•
Routine intrapartum oropharyngeal and nasopharyngeal suctioning of babies born through meconium stained liquor no longer advisable
For Term Babies •
Use of 100% oxygen is recommended when baby is cyanotic or when positive pressure ventilation is required during neonatal resuscitation
•
In situations where supplementary oxygen is not readily available, positive pressure ventilation should be started with room air.
16
Pre-NEET Pediatrics
For Preterm Babies •
Begin PPV with oxygen concentration between room air and 100% oxygen
•
Increase oxygen concentration up or down to achieve saturation between 90 and 95%
•
If heart rate does not response by increasing rapidly to 100 per minute, correct any ventilation problem and use 100% oxygen
Regarding PPV LMA should NOT be used — In the setting of meconium stained amniotic fluid — When chest compression is required — In VLBW babies — For delivery of medications Naloxone NOT to be given by ET route; epinephrine preferably by intravenous route only Capnography (exhaled CO 2) recommended for confirming ET tube placement. •
Normal APGAR sore = 8-10 at minute after birth; <7 indicates asphyxia.
•
NO NEED for resuscitation if these 5 criteria are fulfilled by newborn: — Full term, crying, clear of meconium, pink, good muscle tone.
•
2 absolute indications for bag and mask ventilation are — Apnea at birth; HR < 100/minute.
•
Absolute contraindications for bag and mask ventilation are: — Diaphragmatic hernia, meconium aspiration.
•
Indications to start chest compression are: — HR < 60; ventilate with oxygen for a full 30 seconds initially and proceed with chest compressions if the HR remains <60/ mm.
•
Indications for endotracheal intubation are: — Prolonged PPV; Ineffective bag and mask ventilation; Diaphragmatic hernia, meconium aspiration.
Pediatrics in Last Minutes •
17
Drugs which can be given endotracheally are: — Naloxone, Adrenaline, Lignocaine, Atropine (NALA).
DO NOT Resuscitate if — When gestation birth weight or congenital anomalies are a/w almost certain death (class Ha) — Anencephaly — Chromosomal anomalies incompatible with life (e.g., trisomy 13)
APGAR Score
Appearance (Colour)
0
1
2
Blue or pale
Body pink,
Pink
extremities blue Pulse (Heart rate)
0
<100
> 100
Grimace to catheter in nose
No Response
Grimace
Cries, Coughs
(Reflex stimulation)
or Sneezes
Activity (Muscle Tone)
Flaccid
Some
Actively
flexion
moving extremities
Respiratory effort (not rate)
0
Slow
Good crying
irregular
Timing of Selected Primitive Reflexes Reflex
Onset
Fully developed at
Persist till
Palmar grasp
28 wk
32 wk
2-3 months
32 wk
36 wk
Less
(grasps objects in palm) Rooting (nipple seeking)
prominent after 1 month Moro (extenson of
28-32 wk
37 wk
5-6 months
35 wk 7-8 months
1 month 10-11 months
6-7 months Persists throughout life
limbs when startled) Tonic neck Parachute
18
Pre-NEET Pediatrics
Birth Trauma Caput succedaneum • Present at birth ; • May extend over suture lines; • Diffuse, ecchymotic, oedematous overlying skin; • Disappears spontaneously within 24hrs after birth; • No treatment needed
Cephalhematoma • Seen at 2-4 d a y s o l d ; • Limited by suture lines; • Normal overlying skin;
• Reabsorbed over 2 weeks to 3 months; can calcify; • May require phototherapy for jaundice 1. # Clavicle MC bone fractured due to birth trauma; appears at 1-20+ days 2. Sternomastoid tumor appears at 7-20+ days. Intrauterine posture is also a cause. Located at junction of upper and middle third of muscle. Disappears by 6 months of age. 3. Brain MC internal organ to be injured during birth; next MC is liver
Umbilical Cord • Usually cord is cut 2.5 inches or 6 cm from the umbilical base. • Contains 2 arteries and 1 vein. • Single umbilical artery — Is a/w genitourinary anomalies (MC), CVS anomalies, esophageal atresia, trache-esophageal fistula, imperforate anus — Incidence is 1%, also a/w DM, prematurity, asphyxia. •
Cord clamping
— Early cord clamping done in –
Prematurity, Rh incompatibility, birth asphyxia, IUGR, baby of diabetic mother.
— Delayed cord Clamping done in – •
Prematurity and cord around neck
Cord blood is useful for — Estimation of TSH, T3 and T4; in screening of congenital hypothyroidism (TSH levels > 50micrU/ml in cord blood are diagnostic of neonatal hypothyroidism). — Screening for inborn errors of metabolism/tandem mass spectroscopy (TMS); e.g., in PKU, cystic fibrosis, G6PD deficiency. — Sampling of and infant born to Rh positive mother: or study of blood group, Rh type, serum bilirubin, Coomb’s test.
Pediatrics in Last Minutes
19
Neonatal sepsis • Early onset neonatal sepsis occurs within 72 hours of life and is caused by organisms prevalent in the maternal genital tract or in the labour room. Group B Streptococci are the MC organisms (kelbsiella, E.coli and S.aureus are MC in India). •
Late onset neonatal sepsis is a nosocomial infection acquired from the nursery or lying in ward and occurs 72 hours after birth. Gram negative bacilli are MC organisms.
•
Sepsis screen includes (usually 2 markers are considered significant) a.
ANC<1000
b. Leucopenia < 5000/mm3 c.
Band cell to neutrophil ratio or I:T ratio (immature to total polymorphs) > 0.2 (band cells > 20%)
d. CRP> 8microgm/ml is positive e.
Micro ESR> 15 mm/first hour
f.
Presence of > 5 PMN/hpf in gastric aspirate (limited utility in blood stained or meconium stained liquor) •
Other markers - procalcitonin and cytokines
•
Blood culture is confirmatory
•
Listeria infection may produce preterm delivery, intrauterine death
•
Early conjugated hyperbilirubinemia with bilirubin > 0.5 mg/dl is noted in neonatal sepsis.
Hypoxic Ischemic Encephalopathy (HIE) •
Initial response to hypoxia is increased cerebral blood flow due to redistribution of cardiac output by the ‘diving reflex’ and rise in BP. Cerebral edema aggravates HIE.
•
Status marmoratus is seen in kernicterus and due to basal ganglia defect.
•
In preterm babies deeper vessels are deficient and hence they develop periventricular ischemia and leukomalacia which leads to spastic diplegia. Disability is more in LL
•
Sarnat and Sarnat staging is use for HIE - useful only when baby > 36 weeks.
20 •
Pre-NEET Pediatrics Preterm babies
— Can tolerate hypoxia for longer periods without sequelae — Suffer more periventricular ischemia as cortical vessels are more superficial — Periventricular insults are more common than term babies • Term babies
— Suffer more cortical ischemia and infarcts — It may lead to multifocal necrosis, porencephalic cyst, hydrencephaly ROP screening criteria
• All infants born at d” 32 weeks. • All infants with birth weight d” 1500 grams • Very sick babies who require ventilatory support, multiple blood transfusions. Prematurity + oxygen toxicity predisposes to
•
Retinopathy of prematurity (ROP)
•
Bronchopulmonary dysplasia (BPD)
Antenatal steroid therapy (ANS)
•
It is a/w reduced incidence of RDS/HMD, NEC
Postnatal corticosteroids
•
Useful in prevention of HMD, BPD, but recent data are inconclusive and not recommended anymore.
•
They have some therapeutic utility in management of sclerema neonatorum
Excess administration of vitamin E is a/w • Intracranial hemorrhage • NEC Deficiency of Vitamin E is a/w • ROP • BPD • Hemolytic anemia
Pediatrics in Last Minutes
21
Causes of Impaired Bilirubin Conjugation/ Unconjugated Hyperbilirubinemia • Physiological jaundice of newborn
- Decreased UGT activity
• Breast milk jaundice
- Inhibition of UGT activity bilirubin
• Crigler Najjar syndrome
- Genetic deficiency of bitirubin UGT activity
Type I
- Autosomal recessive /Absent UGT activity
Type II
- Autosomal dominant! Decreased UGT activity
• Gilbert syndrome • Diffuse hepatocellular disease
- Decreased UGT activity due to mixed etiologies
Two other syndromes are often asked.
These are associated with Conjugated hyperbilirubinemia.
• Dubin Johnson syndrome Q (Autosomal Recessive)
Impaired biliary excretion of bilirubin glucuronides due to Canalicular membrane carrier defect
• Rotor’s syndromeQ (Autosomal Recessive)
Decreased hepatic uptake and storage, or possibly decreased biliary excretion?
Cause of Late Onset Jaundice After 72 Hours of Age and Within First 2 weeks • Breast milk jaundice • Biliary atresia • Hypothyroidism •
Gilbert’s syndrome
•
Infection: UTI, Herpes, Hepatitis
•
Parenteral alimentation in VLBW
• Metabolic diseases like galactosemia, alpha 1 antitrypsin deficiency, cystic Fibrosis, hereditary fructose intolerance tyrosenemia
22
Pre-NEET Pediatrics
Guidelines for Phototherapy and Exchange transfusion in a term Neonate Age
Total serum bilirubin (mg/dl) Phototherapy Exchange transfusion
15 18 20
24-48hrs 48-72hrs 72hrs
20 25 25
Guidelines for Management of Jaundice in Preterm babies Total serum bilirubin (TSB) (mg/dL) Gestation and birth weight Preterm babies
Healthy baby Phototherapy Exchange transfusion
Sick baby Phototherapy Exchange transfusion
<1000 1001-1500g 1501-2000g 2001-2500g Term babies
5-7 7-10 10-12 12-15
11-13 13-15 15-18 18-20
4-6 6-8 8-10 10-12
10-12 11-13 13-15 15-18
>2500g
15-18
20-25
12-15
18-20
Causes of Hydrops Fetalis
Immune •
Rh incompatability
Non-immune • Anemia • Cardiac dysarrhythmias
-thalassemia, G-6PD deficiency Supraventricular tachycardia, AF, cong enital heart block
•
Structual cardiac defects
•
Vascular
•
Lymphatic
• •
CNS Thoracic
Tricuspid insufficiency, endocardial cushion defect, cardiomyopathy, hypoplastic left heart, premature closure of foramen ovale Chorioangioma of placenta, Twin-Twin transfusion, umblical artery aneurysm, thrombosis of renal or umbilical vein or IVC Lymphangiectasia, cystic h y g r o m a , Noonan syndrome Encephalocele, intracranial hemorrhage Mediastinal teratoma, diaphragmatic hernia Contd...
Pediatrics in Last Minutes
23
Contd... • •
Teratomas Tumor & storage diseases
Choriocarcinoma, sacrococcygeal teratoma Neuroblastoma, hepatoblastoma, Gaucher
• •
Chromosomal Bone diseases
•
Congenital infections
•
Others
disease, Niemann-Pick disease, Mucopolysaccharidosis Trisomy 13, 15, 16, 18, 21 Osteogenesis imperfecta, skeletal dysplasias CMV, rubella, Toxoplasmosis, Syphilis, Parvovirus, Leptospirosis, disease Congenital nephrosis, Myotonic dystrophy, Infant of diabetic mother, Maternal therapy with indomethacin, Hepatic fibrosis
Erythroblastosis Fetalis •
Haemolytic disease of the newborn (erythroblastosis fetalis) is caused by blood group incompatibility between the mother and fetus.
• Maternal IgG crosses the placenta and destroys fetal erythrocytes. •
An Rh - mother carrying an Rh + fetus is at highest risk
•
Risk increases when fetal blood crosses into the maternal circulation as in abortion, ectopic pregnancy, amniocentesis and motor vehicle accidents.
•
Affected neonates present with: anemia, hvperbilirubinemia hepatosplenomegaly, pulmonary edema and ascites.
•
The direct Coombs’ test is positive.
•
Treat with exchange transfusions (see below).
•
Prevent disease with anti-Rh IgG injections for high-risk mothers at 28 weeks of delivery, and at any other time of exposure to fetal blood.
Indications for exchange blood transfusion in infants with Rh- hemolytic disease of the newborn •
Cord Hb of 10g/dl or less
•
Cord bilirubin of 5 mg/dl or more
•
Unconjugated serum bilirubin of 10 mg/dl within 24 hours or 15 mg/dl within 48 hours or rate of rise of >0.5 mg/dl per hour
24
Pre-NEET Pediatrics
INFANT OF DIABETIC MOTHER Congenital Defects • • • • • • • •
Cardiac (VSD, ASD, TGA Coarctation of aorta) Neural tube defect Holoprosencephaly Sacral agenesis (most specific) Hydronephrosis Renal agenesis Duodenal atresia Anorectal malformations
General •
Macrosomia
•
Normal head size
•
Increased subcutaneous fat
• •
Birth trauma Hairy pinna
Other •
Renal vein thrombosis
•
Respiratory distress syndrome
• •
Polycythemia Small (lazy) left colon syn.
Cardiovascular • • •
Cardiomegaly Transient hypertonic cardiomyopathy Persistent fetal circulation
Metabolic • • • •
Hypoglycemia Hypocalcemia Hypomagnesemia Hyperbilirubinemia
Pediatrics in Last Minutes
25
D/D of Neonatal Vomiting First 1 to 3 days
End of first week
Very common
Common
— Feeding problem
— Hiatus hernia
— Gastric irritation, swallowed blood. — Infection — Functional ileus in premature,
Less common
stressed. — Infection
— Necrotizing enterocolitis
— Neurological: asphyxia/birth injury, — Obstructive: pyloric stenosis, intraventricular haemorrhage.
volvulus, anal stenosis, small left colon, Hirschsprung’s disease.
Un c o m m o n
Un c o m m o n
Obstruction: Duodenal atresia,
Renal failure, CAH, galactosemia,
stricture or web, annular pancreas,
organic acidosis, lactic acidosis.
Ladd’s bands, mid gut volvulus Meconium ileus, Meconium plug, Hirchspring’s disease, Anal atresia.
Neonatal Hypoglycemia The whole blood glucose level of < 40 mg/dL indicates hypoglycemia 1. Transient hypoglycemia
•
Prematurity; small for date infants; infant of diabetic mother; smaller of twins.
2. Persistent hypoglycemia
•
Hyper-insulinemia, Nesidioblastosis, Adenoma of beta cells, Beckwith syndrome, leucine sensitivity.
•
Deficiency of hormones such as glucagons, growth hormone, epinephrine, ACTH.
•
Deficiency of substrate as in ketotic hypoglycemia and Maple syrup urine disease.
•
Disorders of carbohydrate metabolism such as glycogen storage disease, galactosemia, and fructose intolerance.
3. Other etiologies
•
Idiopathic; Sepsis; Drugs (maternal tolbutamide); liver disease (reye syndrome), carcinoma etc.
26
Pre-NEET Pediatrics
Age of Onset of Convulsions First day
Between 1-3 days
4th to 7th day
Hypoxic-ischaemic encephalopathy Birth injury (cerebral contusion) ‘First day’ hypocalcemia (normal phosphate) Pyridoxine dependency Accidental injection of local anesthetic
Intracranial haemorrhage
Tetany
Hypoglycemia Narcotic withdrawal
Meningitis TORCH infections
Inborn errors of metabolism Developmental Kernicterus Idiopathic
Head Malformations 1. Anencephaly: Due to failure of closure of the rostral neuropore 2. Holoprosencephaly: Incomplete separation of the cerebral hemispheres. Seen in Patau’s syndrome. 3. Porencephaly Cysts or cavities in the brain may result from developmental defect or acquired lesions including infarction of tissue 4. Lissencephaly: Bat like brain with no cerebral convolutions and a poorly formed sylvian fissure due to faulty neuroblast migration (agyria). Hypoplasia of optic nerves and microphthalmia are common. 5. 6.
Schizencephaly : Unilateral or bilateral cleft in the cerebral hemispheres, microgyria. Scaphocephaly: MC type of cranoisynostosis.
7. Encephalocele: Is a malformed diverticulum of CNS tissue extending through a defect in the cranium. 8.
Shapiro’s syndrome: Agenesis of corpus callosum
Torch Infections Infection
Description
Treatment
Prevention
Toxoplasmosis
3Cs– Convulsions, intracranial Calcification, Chorioretinal scar, hydrocephalus Ring enhancing lesions on head CT Deafness (MC) ‘Bluberry muffin’ rash,
Pyrimethamine, sulfadiazine, spiramycin
Avoid exposure to cats and cat feces during pregnancy; avoid raw undercooked meat
None
Immunize mother prior to pregnancy
Rubella
Contd...
Pediatrics in Last Minutes
27
Contd... Infection
Description
Treatment
Cataracts and ‘salt and pepper’ chorioretinitis PDA and multiple Pulmonary stenoses encephalitis (periventricular calcification) maximum fetal transmission if iinfected between 6-8 weeks of pregnancy Cytomegalovirus Petechial rash, Ganciclovir periventricular calcifications, Acyclovir microcephaly, chorioretinitis Herpes Skin, eye and mouth vesicles, can progress to severe systemic/CNS infectioin Syphilis Maculopaular skin rash, Penicillin lymphadenopathy, ‘snuffles’ peri-osteitis Interstitial keratitis If infected during first trimester (maximum risk of abortion)
Prevention
Avoid exposure Perform a Caesarean section if mother has active lesions at time of delivery Treat seropositive mothers with penicillin
Management of Neonate Born to HBSAg+ve Mother •
•
Risk of fetal transmission after maternal exposure to HBV –
Depends upon the time of exposure and status of maternal serological markers.
–
Perinatal transmission occurs MC during passage through the birth canal from infected blood and fluids at the time of delivery.
–
HBV is usually transmitted at the time of birth (rarely in utero) and commonly results in carrier state (increased risk of cirrhosis and HCC later in life) or it may cause severe hepatitis in infancy.
All neonates born to HBSAg +ve mother should be given HBIG (hepatitis B Ig) 0.5 ml IM + active immunization with HB vaccine preferably within 12 hours of delivery.
Perinatal Tuberculosis •
True congenital TB is rare. Congenital TB in a neonate is acquired
28
Pre-NEET Pediatrics by transplacental transmission through a lesion in the placenta or ingestion of infected liquor.
•
Transplacental transfer MC affects the liver; hepatomegaly is usual manifestation.
•
Postnatal TB is more common, usually from an open infectious case, MC the mother.
•
Management
•
If the child has clinical features of perinatal TB
– •
Usual treatment Give regimen of 2HRZ +7 HR
If a high risk mother delivers a baby who is asymptomatic
–
Usual treatment - continue breast feeding; gve BCG to child + ATT to mother and screen the baby (if mother is Mantoux positive, CXR and screening +ve or open case of TB)
–
If screening of baby normal - give prophylactic ATT to baby (6 HR)
–
If screening of baby abnormal - treat as perinatal TB
Advanced maternal Age (>35 years) is a/w – Down syndrome – Mental subnromality – Premature labour (Aperts syndrome) – Edward syndrome – Dizygotic twins
Advanced Paternal Age (>50 years) is a/w - Marfans syndrome - Achondroplasia - Craniosynostosis with syndactyly - Downs syndrome (with fusion of chromosome 21,22) - Osteogenesis imperfecta - Congenital deafness
HIGH YIELDING FACTS Congenital Diaphragmatic Hernia •
Bochdalek’s Hernia (posterolateral hernia): This is really the persistence of the pleuroperitoneal canal. MC diaphragmatic hernia in children, more common on left side. Classic triad of respiratory distress, apparent dextrocardia and a scaphoid abdomen. Pulmonary hypoplasia is the MC cause of morbidity and mortality.
Pediatrics in Last Minutes •
29
Morgagni Hernia (retrosternal anterior hernia): Defect is between the sternal and costal attachments of the diaphragm. Usually occurs on right side, in adults, particularly females. MC involved viscus is the transverse colon.
Ponderal Index (PI) In Neonate •
•
Ponderal index has been used as an indicator of fetal growth status, especially to assess assymetrical IUGR. The Ponderal index is calculated by multiplying the weight in grams by 100 and then dividing it by cube of length in cm.
Ponderal Index = Weight (gm)/Length (cm)3 x100 •
A ponderal index below the 10th percentile may be used to identify IUGR infants correctly. • A low neonatal ponderal index is defined as less than 1 SD below a mean 2.0. • PI is usually less than 2 in assymmetric growth retarded baby and 2 or more in a baby who has either normal growth or has symmetrical growth retardation. • Fetal ponderal index can also be calculated by USG examination and compared with neonatal P1. Fetal P1 had been found to be predictor of IUGR with the sensitivity and specificity of 76.9 and 82%, respectively. If the fetal P1 is less than 1 SD, the fetal and neonatal well being is compromised.
Apt Test •
•
•
The Apt test is most commonly used in cases of vaginal bleeding late during pregnancy (antepartum hemorrhage) to determine if the bleeding is from the mother or the fetus. Exposing the blood to NaOH (alkali) will denature the adult but not the fetal hemoglobin. The fetal hemoglobin will appear pinkish color under the microscope while the adult hemoglobin will appear as a yellow - brownish color. - Positive test à Blood is of fetal origin. - Negative test à Blood is of maternal origin. The Apt test can be used after birth (post partum hemorrhage) if the newborn has bloody vomiting, bloody stool, or active bleeding from nasogastric tube. A positive Apt test would mean that the blood is either due to GI or pulmonary bleeding from neonate. A negative Apt test would indicate that the blood is of maternal
30
•
•
•
•
Pre-NEET Pediatrics origin, suggesting that the neonate swallowed or aspirated maternal blood, either during delivery or during breast feeding (from breast fissures). Kleihauer Betke test (KB test) The KB test is the standard test for detecting fetal - maternal hemorrhage. It is used to measure the amount of fetal hemoglobin transferred from a fetus to a mother’s blood stream. It is usually performed on Rh(-ve) mothers to determine the required dose of Rho (D) immunoglobulin to inhibit formation of Rh antibodies in the mother and prevent Rh hemolytic disease in future Rh - positive children. A standard blood smear is prepared from the mother’s blood and exposed to an acid bath. This removes adult hemoglobin, but not fetal hemoglobin, from the red blood cells. Subsequent staining makes fetal cells (containing HbF) appear rose pink, while adult red cells are only seen as ghosts. KB test quantifies the fetal - maternal hemorrhage. Apt test
Source of sample Maternal or neonatal How it works Adding 1% NaOH destroys adult HbA but not fetal HbF Assessment type Qualitative Results Positive means blood is of fetal origin
Kleihauer Betke test Maternal Adding acid destroys adult HbA but not fetal HbF Quantitative Reported in estimated ‘ml’s of fetal blood
Hematopoesis in Fetus •
The anatomic sites of hematopoesis undergo developmental changes during embryonic and fetal life. • RBC formation can be observed within the developing blood vessels of the yolk sac at 2 weeeks of gestation. • By 8 weeks of gestation the site of RBC formation begins to shift to the sinusoids of the liver, where granulocyte precursors and megakaryocytes are also seen. Hematopoesis in the liver is maximal till 20-24 weeks and declines thereafter. • Hematopoesis in the bone marrow is evident by the 4 th month of gestation and this becomes the predominant site of hematopoesis during the rest of gestation and later.
Pediatrics in Last Minutes
31
Hematopoiesis After Birth • •
Upto puberty: It occurs throughout the seletaon. After puberty: Only the vertebrae, ribs, sternum, skull, pelvis and proimal epiphyseal regions of humerus and femur retain red marrow
Circulatory Adjustments at Birth These are brought about because of a shift from placental dependance for gas exchange in the fetus to pulmonary gas exchange in neonate. 1. Pulmonary circulation: Immediatly after birth lungs expand due to first few breaths of neonate. – This causes a fall in pulmonary vascular resistance (oxygen causes pulmonary vasodilatation). – This results in increased flow into pulmonary trunk and arteries. – The pulmonary artery pressure falls due to lowering of pulmonary vascular resistance. – The pressure relations between aorta and pulmonary trunk are reversed so that the blood flow through the ductus arteriosus is reversed Instead of blood flowing from the pulmonary artery to aorta, the direction of flow through ductus, is from aorta to pulmonary trunk. – Increasing oxygen saturation causes the muscle of ductus to constrict In full term neonates the ductus arteriosus closes within 10 to 25 days. 2. System circulation and circulation through heart – Loss of placental circulation and clamping of the cord after birth results in increase in systemic vascular resistance. – This tends to increase the aortic blood pressure and the left ventricular systolic pressure. The loss of placental circulation results in sudden reduction of flow through ductus venosus which closes off Flow through ductus venosus disappears by the 7th day of posnatal life. – The loss of placental flow results in a decrease in the volume of blood returning to right atrium Right atrial pressure decreases. – The left atrial pressure becomes higher than right atrial pressure and the septum primum which acts as a valve of fossa ovalis, approximates with the septum secundum to close off formen ovale.
32
Pre-NEET Pediatrics
Functional closure of foramen ovale occurs very quickly.
–
Over a period of months, the septum primum and septum secundum become firmly adherent resulting in anatomical closure of the foramen ovale.
–
After closure of ductus arteriosus, there is establishment of postnatal circulation:
–
The blood reaching the right atrium through IVC and SVC is emptied into the right ventricle from where it is pumped into pulmonary trunk.
–
After coursing through lungs for gas exchange, it reaches the left atrium and ventricle.
–
The left venthcle pumps it out for distribution in the body for oxygenation of the tissues.
–
The venous return again comes back to right atrium through IVC and SVC.
–
All of the blood leaving the right ventricle, after coursing through lungs, reaches the left ventricle The two ventricles are connected in series and therefore, the output of right and left ventricles are same (in contrast to fetal circulation, where right ventricular output is more).
Congenital Heart Disease Left to right shunts (Acyanotic) • • • •
VSD (MC congenital heart disease) ASD PDA VSD> ASD > PDA
Right to left shunts (cyanotic) •
Transposition of great arteries (MC cyanotic lesioin)
• • • •
Tetralogy of Fallot Truncus arteriosus Tricuspid atresia TAPVR S-I-M 5Ts
Pediatrics in Last Minutes
33
ACYNOTIC CONGENITAL HEART DISEASE - LEFT TO RIGHT SHUNTS Disease
Anatomy/ Symptoms
Signs
Ventricular septal defect (MC Cong HD)
-
-
-
Patent ductus arteriosus
-
ASD
90% in membranous part of septum; 70-80% have spontaneous closure In infants FTT, CCF. MC cong. Heart disease complicated by IE
-
-
In fetus, shunt is right to left, (normal), through the ductus arteriosis which connects pulmonary artery and aorta. In first few days of neonatal period, ductus arteriosus should close, if not lung resistance decrease and shunt becomes left to right with subsequent RVH and failure (abnormal). Risk factors: Maternal rubella in 1st trimester, high altitudes.
-
MC in Prematures (recurrent apnea, RDS, CCF); in infants (FIT in additioin); in adults (dyspnea, SBE).
-
- Ostium secundum (MC, situated in fossa ovalis) Ostium primum (AV septal defect, cleft anterior leaflet of mitral valve) Child: asymptomatic, usually Adult breathless from pulmonary HTN
-
-
-
Widely split, variable S2. Pansystolic murmur at left sternal border. Small VSD - Loud murmur (Maladie de Roger) CXR: biventricular hypertrophy, pulmonary plethora Continuous machinery murmur in left infraclavicular area (Gibson's murmur) Mid diastolic flow murmur at mitral valve Differential cyanosis occurs in PDA with reversal of shunt Indomethacin is used to close PDA. S-I-M "Come IN and close the door" PGE (alprosatdil) is used to keep PDA open which is necessary to sustain life in conditions like TGV. S-IM "Keep OP(G)En with PGE". Left parasternal heave (RVH) Widely fixed split S2 Ejection systolic murmur over pulmonary area Mid diastolic tricuspid flow murmur
34
Pre-NEET Pediatrics
ACYANOTIC CONGENITAL HEART DISEASE OBSTRUCTIVE Disease
Anatomy/Symptoms
Aortic stenosis (AS)
– Infant: valvular (MC) - CCF if severe stenosis
Coarctation of aorta (COA)
Signs –
– Supravalvular: asymptomatic, a/w Williams syn. – Infantile aortic stenosis proximal to insertion of ductus (preductal) – Adult: postductal, MC coarctation is just below origin of left subclavian A. – A/w HTN in upper extremities, weak pulses in lower extremities – A/w Turner syn.
– – –
Thrill over suprasternalnotch/ carotids, ejection systolic murmur maximal in 2nd right I/C space with neck radiation Pulse: radiofemoral delay Elevated upper limb BP Palpable arterial pulsations in interscapular region (Suzzman's sign)
– Aortic ejection systolic murmur – CXR: 3 sign, Dock sign (rib notching due to collateral circulation)
Cyanotic Congenital Heart Disease Disease
Anatomy/Symptoms
Signs
Transposition of great arteries (TGA)
-
-
Cyanosis persists in 100% oxygen which may even worsen cyanosis by causing closure of ductus.
-
Single Heart sound, murmur often absent XCR: Egg on side/string appearance - Central cyanosis, clubbing,
Cyanosis from birth or shortly after, proportional to shunt through foramen ovale, ductus arteriosus or VSD.
Tetralogy of
-
Infant: progressively
Fallot
deeper cyanosis,
right ventricular heave.
(Pulmonary
weeks or few
Single S2
stenosis, RVH,
months old.
Ejection systolic murmur
Pediatrics in Last Minutes Contd... Disease
Anatomy/Symptoms
Overriding of aorta, VSD)
Signs
Cyanotic spells from infundibular
at third left interspace.
spasm. -
Childhood: squatting after exertion to overcome
- CXR: cour en sabot (boot shaped heart due to RVH). Oligemia
dyspnea, SBE, cerebral abscesses, polycythemia. CCF is very RARE. -
Squatting cause compression of femoral arteries increase pressure threby decrease the right to left shunt and directing more blood from the RV to the lungs
Eisenmenger's syndrome
-
Uncorrected VSD, ASD, PDA increase pulmonary vascular resistance due to arteriolar thickening progressive pulmonary hypertension.
-
As pulmonary resistance increase the shunt reverses from L R to R L shunt which causes late cyanosis (clubbing and polycythemia)
- Loud P2
35
36
Pre-NEET Pediatrics
COMMON MIXING CONGENITAL HEART DISEASE: ACYANOTIC AND CYANOTIC Disease Truncus arteriosus
-
Total anom alous pulmonary venous connection (TAPC)
Key: • CCF • CHD • FTI' • TE • LVH • PS • RDS • RVH • SBE
Anatomy/Symptoms
Signs
Neonate: breathless, CCF
-
- Newborn: obstructed venous return simulates RDS. Onset 2 months to 2 years. Breathless, FTT
= = = = = = = = =
-
-
Minimal cyanosis, Bounding pulse, Single S2, short systolic murmur Cyanosis NOT improved in 100% oxygen. Poor pulse. Loud S2. Murmur often absent, tachypnea, right ventricular heave. CXR: pulmonary edema with Snowman heart (figure of 8 heart of 'cottage leaf')
congestive cardiac failure; Conegnital heart disease; failure to thrive; Infective endocarditis; left ventricular hypertrophy; Pulmonary stenosis; respiratory distress syndrome; right ventricular hypertrophy; subacute bacterial endocarditis.
ADDITIONAL POINTS ABOUT CONGENITAL HEART DISEASE •
Holt-Oram syndrome—ASD with first-degree heart block; hypoplastic thumb or absent radii. • Critical aortic stenosis—severe aortic stenosis that presents in early infancy is termed critical aortic stenosis and is associated with left ventricular failure and signs of low cardiac output. • Endocardial fibroelastosis—In infants with critical aortic stenosis, the left ventricular shortening fraction is usually decreased and the endocardium may be bright on ECHO, indicating the development of endocardial fibrous scarring known as endocardial fibroelastosis.
Pediatrics in Last Minutes •
37
Shone complex - Coarctation of aorta + mitral valve abnormalities (supravalvular mitral ring or parachute mitral valve) + subaortic stenosis — this group of left sided obstructive lesions occurring together is called Shone complex. Blalock-Taussig shunt is the MC aortopulmonary shunt procedure performed for TOF. Norwood procedure - is performed for hypoplas tic left heart syndrome. Heath Edwards classification is a grading for the histopathologic changes occurring in small pulmonary arterioles and muscular arteries in Eisenmenger's syndrome.
• • •
Congenital Cardiac Disease Associations • • • • • •
Disorder Rubella Turner's syndrome Infant of diabetic mother Wiliam's syn. Marfan's syn. Down's syn.
•
22q11 syn.
Defect PDA COA TGV Supravalvular AS Aortic insufficiency Ostium primum ASD, VSD, AV septal defect (endocardial cushion defect) Truncus arteriosis, TOF
Primary Pulmonary Hypertension • • • • •
Characterized by pulmonary vascular obstructive disease and rightsided heart failure. RVH Dilated pulmonary artery Pulmonary insufficiency tricuspid insufficiency (late stages). Predominant symptoms include exercise intolerance and easy fatigability. Ejection click after S1 is present and S2 is closely split. Chest X-ray — prominent pulmonary artery and right ventricle. ECG — spiked P waves. Treatment— – Calcium channel blockers (nifedipine); – Intravenous (epoprostinol, treprostinil) or nebulised (iloprost) prostacyclin (PGI2.); – Oral endothelin antagonist (Bosentan), – Oral PDE-5 inhibitor (sildenafil, tadalafil). – Definitive therapy for non-responders lung transplantation.
38
Pre-NEET Pediatrics
NADAs Criteria The Assessment of a child for the presence or absence of heart disease can be done with the help of some guidelines suggested by NADA. These guidelines are called NADA 's criteria. Major Systolic murmur, grade III or more, especially with thrill Diastolic murmur Cyanosis Congestive cardiac failure
Minor Systolic murmur < grade III Abnormal 2 heart sound Abnormal ECG Abnormal X Ray Abnormal BP
Presence of one major or two minor criteria are essential for indicating the presence of heart disease. Criteria for Diagnosis of Rheumatic fever - Presence of 1 major and 2 minor criteria in the presence of essential criteria is necessary for diagnosis of rheumatic fever. Major Criteria
Minor Criteria
1. Carditis 2. Arthritis 3. Subcutaneous nodules 4. Chorea 5. Erythema marginatum
A. i. ii. iii.
Essential criteria Evidence of recent streptococcal infection as indicated by
a. Increased antistreptolysin 'O' titer b. Positive throat culture c. Recent scarlet fever
Clinical Fever Arthralgia Previous rheumatic fever or rheumatic heart disease
B. Laboratory i. Acute phase reactants; leukocytosis, elevated sedimentation rate and C reactive protein ii. Prolonged PR interval in the electrocardiogram
Pediatrics in Last Minutes
39
Surgical procedure for selected CHD lesions (palliative procedures) Procedure
Anatomy involved
Result
Indicated for
BlalockTaussig shunt Waterston shunt
Subclavian artery to ipsilateral pulmonary artery Aorta to right pulmonary artery
Rashkind procedure
Balloon atria septostomy
BlalockHanlon procedure Balloon angioplasty
Operative atrial septostomy Valves and vessels
Increased pulmonary blood flow Increased pulmonary blood flow Increased atrial mixing Increased atrial mixing Dilation of valves/ vessels Decreased pulmonary blood flow
Tetralogy of Fallot Pulmonary valve atresia Tetralogy of Fallot pulmonary valve atresia Tricuspid atresia Transposition of great arteries Tricuspid atresia Transposition of great arteries
Pulmonary Pulmonary artery banding artery
Fontan procedure
Mustard procedure
Norwood procedure
Corrective procedures Right atrium Atrium to pulmonary functions artery as right anastomosis ventricle Intera-atrial RV remains baffle systemic arteries ventricle A complex two stage procedure
Pulmonary valve stenosis, Aortic valve stenosis Endocardial cushing defect, Single ventricle Tricuspid atresia single ventricle, pulmonary atresia Transposition of great vessels
Hypoplastic left heart
Characteristics of murmurs in selected heart lesions Lesion Aortic stenosis Aortic regurgitation Pulmonary stenosis Pulmonary
Loudest Right 3rd ICS
Quality Harsh, SEM
Radiation Carotids
MLSB
Blowing, Early Apex diastolic
Left 2nd ICS Left 2nd ICS
Harsh, SEM Low pitched,
Lungfields Little to none Contd...
40
Pre-NEET Pediatrics
Contd... Procedure
Anatomy involved
regurgitation Mitral stenosis Apex
Mitral regurgitation ASD VSD
Apex Left 2nd ICS LLSB
PDA
Left 2nd - 3rd ICS
Result
Indicated for
early-mid diast Low pitched, raid diast. Rumble Blowing, holosystolic Harsh, SEM Harsh, Holosystolic Continuous
None
Left axilla Lung fields None Lung fields
Single Gene Defects - Account for 3% of CHD •
•
• •
Autosomal dominant: – Marfan's - aortic and mitral valve incompetence, dilatation of the ascending aorta – Holt - Oram - VSD, ASD – Noonan's - PSASD cardiomyopathy Autosomal recessive: – Pompe's (Type II A glycogen storage disease) - cardiomyopathy – Ellis - VanCreveld - AVSD, common atrium X-linked: – Duchenne Muscular Dystrophy - cardiomyopathy Polygenic inheritance: – Well described for PDA with a recurrence risk of 2.5 inn siblings (recurrence risk increased to 10% if > than one family member affected).
Respiratory Infections
Etiology Presenting age Clinically
Croup (laryngo tracheobronchitis)
Acute epiglotitis (emergency)
MC parainfluenza virus 1; also by RSV 3 months to 3 years Prodrome with URI symptoms for 1-7 days; low grade fever, ins
MC by H. inflenzae type b. 3-7 years Rapid onset (4-12 hours); high fever, dysphagia, drooling, muffled voice, stridor patients may be in "sniffing" position Contd...
Pediatrics in Last Minutes
41
Contd...
X-ray Treatment
Croup (laryngo tracheobronchitis)
Acute epiglotitis (emergency)
piratory stridor that worsens with agitation; hoarseness of voice, barking cough, "Steeple sign" on lateral neck film Mist therapy, oxygen, aerosolized racemic epinephrine, dexamethasone
with neck hyperextended and chin protruding
"Thumb sign" on lateral neck film Call anesthesia, transfer to operation theatre, endotracheal ntubation and IV antibiotics
Causes Of Increased Sweat Sodium of 70 MmoI/L or more •
Cystic fibrosis
•
HIV infection
• Metabolic: Glucose-6-phosphate deficiency, Adrenal insufficiency, Nephrogenic Diabetes Insipidus, Mucopolysaccharidoses, Fucidosis • Insufficient Sweat : Hypothyroidism, Ectodermal dysplasia, Riley Day syndrome, Malnutrition • False negative sweat test : Edema, Hypoproteinemia
Pediatric Gastrointestinal Conditions •
Intussusception
–
Telescoping of a bowel segment into itself may - edema, arterial occlusion, gut necrosis and death.
–
Affects children 4 mo -2 years;
–
MC cause of bowel obstruction in first 2 years of life; usually ileocecal;
–
Presents as paroxysmal abdominal pain, 'currant jelly' stools (blood and mucus), bilious vomiting; palpable sausage shaped mass; sign de Dance;
– –
Barium enema is both diagnostic and theraputic; a/w HSP and cystic fibrosis
42
Pre-NEET Pediatrics
•
Volvulus – Incomplete fixation to the posterior abdominal wall, causing a malrotated gut to twist on itself. – Affects children 0-2 years; – Sudden onset of pain, distension, peritonitis, "bird's beak" on X- ray, – Treat with surgery immediately since gut may necrose due to superior mesenteric artery occlusion.
•
Necrotising enterocolitis – Intestinal necrosis occurring primarily in watershed distributions, – Affects children 0-2 months; – Prematurity and congenital heart disease are risk factors; – Fever, rectal bleeding, air in bowel wail (pneumatosis intestinalis) and/or hepatobiliary/ portal air; – Treat with NPO, IV fluids and antibiotics.
•
Meckel's diverticulum – A remnant of omphalomesenteric duct that persists as an outpouching of the distal ileum; can contain ectopic gastric mucosa – Affects children 0-2 years; – Rule of 2s for Meckel's diverticulum =2% of population affected (MC GI tract abnormality; remnant of omphalomesenteric duct), 2 inches long, within 2 feet of ileocolic junction, presents in the first 2 years of life. – Meckel's diverticulum can cause intussusception, obstruction or volvulus; – Use Meckel scan (technetium radionucide scan) to detect gastric mucosa; – Treat with surgery
•
Meconium ileus – In cystic fibrosis, meconium plug obstructs intestine preventing stool passage. – Affects children 0-2 weeks; may cause late feculent vomiting, rectal prolapse
Pediatrics in Last Minutes
43
Congenital Gastrointestinal Malformations in Children •
Pyloric stenosis obstruction;
•
Duodenal atresia
•
Tracheoesopha geal fistula
•
Hirschsprung's disease
– Hypertrophy of pylorus - gastric outlet – affects first-born male infants at 2 weeks of life (range 2 wk- 4 mo); – nonbilious projectile vomiting palpable olive shaped mass in epigastrium; hypochloremic, hypokalemic metabolic alkalosis secondary to emesis; – U/S is gold standard; – treat by first correcting dehydration and metabolic abnormalities, surgery is pyloromyotomy (Ramstedt's). – Affects infants 0-1 week; – early bilious vomiting with proximal stomach distension ("Double bubble"); – a/w Down's syndrome; – treat with duodenoduodenostomy – Blind esophageal pouch; – fistula between distal esophagus and trachea MC type; – presents in the first few hours of life with copious secretions, choking, cyanosis, respiratory distress; aspiration pneumonia; gastric distension from air occurs – Absence of ganglion cells/enteric nerve plexuses (Auerbach's and Meissner's) in colon on rectal bisopsy; – Narrowing of anganglionic segment with dilation of proximal normal colon; can be a short (75%) or long segment; – Presents at infancy or within first 2 years of life; – Failure to pass meconium, abdominal distension, chronic constipation; – Staged procedure with initial diverting colostomy and later resection when infant> 6 months old
44
Pre-NEET Pediatrics
Common pediatric renal diseases
Nephrotic Syndrome • •
• • •
MC cause in children is minimal change disease (normal histology on light microscopy). Clinically: – Massive edema – Massive selective proteinuria (>2 g/day) – Hypoalbuminemia (<2.5 g/dl) – Hypercholesterolemia (>200 mg%) Gene mutation a/w congenital NS (Finnish) type = Nephrin (NPHS1). S-I-M PHinnish = NePHrin. Gene mutation a/w steroid resistant NS = Podocin (NPHS2) Treatment Initial longer course of corticosteroids; relapses are common.
Pediatrics in Last Minutes
45
Also Know Infrequent relapses: If a patient gets 3 or less relapses in a year Frequent relapses: If a patient has 4 or more relapses in a year Steroid dependent : When relapse occurs within 2 weeks of discontinuation of drugs
Acute Post Streptococcal Glomerulonephritis •
Following h/o recent streptococcal pyoderma or pharyngitis.
•
Edema, Oliguria, hematuria, hypertension, decreased C3 levels
•
Fluid restriction, furesemide, antihypertensives
• •
> 95% have good prognosis. Common Pediatric Hematologic Disorders HUS
HSP
TTP
ITP
MC age
Children
Children
Young adults
Children or adults
Previous infection
Diarrhea (EHEC, Shigella)
URI
None
Viral (esp. In children)
RBC count
N N
N
Platelet count
Peripheral smear
Hemolysis
N
Hemolysis
N
Kidney effects
ARF, hematuria
Hematuria
ARF, proteinuria
None
Treatment
Supportive*
Supportive
Plasmapheresis, NSAIDs; No platelets**
Steroids***, splenectomy if drugs fail
Key differential points
Age, diarrhea
Rash, abdominal pain, arthritis, melema
CNS changes, age
Antiplatelet antibodies
• Key HUS = Haemolytic uremic syndrome; HSP = Henoch-Scholnlein purpura; Ti? = Thrombotic thrombocytopenic purpura; ITP = Idiopathic thrombocytopenic purpura; ARF = Acute renal failure;
46
Pre-NEET Pediatrics
EHEC = Enterohemorrhagic E.coli. * In HUS and HSP, patients may need dialysis and transfusions. ** Do not give platelet transfusion to patients with TTP, clot may form. *** Give steroids only if the patient is bleeding.
Grading of Vesico-Ureteral Reflux (VUR) Grade 1 Reflux up normal caliber ureter without pelvicalyceal filling Grade 2 Reflux up normal caliber ureter with pelvicalyceal filling Grade 3 Reflux up dilated ureter into the dilated pelvicalyceal system Grade 4 Reflux up markedly dilated ureter and collecting system • Micturation Cystourethrogram (MCUG) best investigation for VUR.
Febrile Convulsions
• •
• • •
•
•
•
Simple benign febrile convulsions
Atypical complex febrile convulsions
Fits occur within 24 hours of onset offever Last < 10 minutes and are usually single per febrile episode Convulsions are generalized
•
Anything different from features of simple febrile convulsions are atypical fits. Presence of family h/o epilepsy, neurodevelopmental retardation and atypical episodes increase risk of febrile episodes and subsequent epilepsy.
No post-i ctal neurological deficit Family history may be present. Treatment Antipyretics (paracetamol, ibuprofen AVOID aspirin due to risk of Reye's syndrome) Hydrotherapy, tepid sponging oxygen. IV diazepam or phenobarbitone for control of seizures,
Prophylaxis • Intermitent diazepam, clabazam, midazolam- most desirable.
•
Continuous prophyl axis - in form of antiepileptic drug therapy is advocated in event of failure of intermittent therapy, especially in recurrent atypical seizures or family h/o epilepsy (valproate or phenobarbitone).
Pediatrics in Last Minutes
Common Pediatric Epilepsy Syndromes Syndrome
Symptoms
Diagnosis
Treatment
Absence seizures
Multiple brief staring episodes
Generalized 3-Hz spike and wave pattern on EEG
Ethosuximide
Infantile spasms (West syndrome)
Affects infants <1 year, 'jackknife spasms', developmental regression
Hypsarrythmia on EEG. A/w tuberous sclerosis
ACTH
Lennox Gastaut syndrome
First seizure between 1-7 years of age; multiple progressive difficult to treat type seizures with GTCS and drop attacks
Atypical spike and wave pattern in frontal region on EEG
No effective treatment
Juvenile mycolonic epilepsy
Affects healthy adolescents; myoclonic jerks in early morning hours upon wakening
Positivefamily history
Easily treated with a variety of antiepileptic medications
Benign partial epilepsy
Partial seizures during wakefulness (oral, vocal)
Classic interictal spikes from the centrotemporal, (rolandic) region
Seizures usually disappear by adolescence
Landau Klefner syndrome
Normal children and lose language between 3- 6 years; often confused with autism
Bilateral temporal spike and sharp waves on EEG.
Antiepileptic medications
47
48
Pre-NEET Pediatrics
ANTIMICROBIAL THERAPY OF CNS BACTERIAL INFECTIONS BASED ON PATHOGENA Organism
Antibiotic
Neisseria m eningitides
Penicillin - sensitive Penicillin - resistant
Penicillin G or ampicillin Ceftriaxone or cefotaxime
Streptoco cus pneumoniae
Penicillin - sensitive Penicillin - intermediate Gram-negative bacilli (except Pseudomonas spp.) Pseudomonas aeruginosa
Penicillin G (Ceftriaxone or cefotaxime) Vancomycin Ceftriaxone or cefotaxime Ceftazidime or Cefepime or Meropenam
S t ap h y l o c o c c i s p p .
Methicillin-sensitive Methicillin-resistant Listeria monocytogenes Haemophilus influenzae Streptococcus agalactiae
•
Nafcillin Vancomycin Ampicillin + gentamicin Ceftriaxone or cefotaxime Penicillin G or ampicillin
Cerebral palsy: it is defined as a non progressive neuromotor disorder of cerebral origin
CLINICAL MANIFESTATIONS OF CP A. Spastic CP – MC type, 65% – May be diplegia, hemiparesis or quadriplegia – Stretch tendon reflexes always brisk – Variable degrees of mental, visual and behavioral problems – Seizures are common B. Hypotonic or Atonic CP – Patients are atonic or hypotonic – Tendon reflexes are normal, or brisk & Babinski response is (+) – Severely mentally retarded C. Extrapyramidal CP – Dyskinesia such as athetosis, choreiform movements, dystonia, tremors and rigidity are seen. – Arms, leg, neck and trunk may be involved. – Mental retardation and hearing deficits may be present. – Cerebellar involvement occurs in less then 5% of cases.
Pediatrics in Last Minutes
49
Mental Retardation • • • • •
MR - Abnormalities in intellectual/adaptive function. Age on onset before 18 years/age of maturity Most common cause = Chronic anomalies (Down's syndrome) Most common cause in males = Down's syndrome (mild - to moderate MR) Most common cause of severe MR in males = Fragile X syndrome – Normal = 90 - 120 – Borderline = 70 - 90 – Mild = 51 - 70/ 50 -70 – Moderate = 36 - 50/ 35 - 50 (trainable) – Severe = 21 - 35 (able to guard cannot manage self) – Profound = <20 (unable to guard self) – Severe and profound MR = custodial
Intelligence Assessment Scales • • • •
Weschler scale - Adult WISC - R - Weschler intelligent scale for children revised WPPSI ' Pre school Mallin's ' Modification of Weschler
50
Pre-NEET Pediatrics
The "Original" Six Exanthematous Illnesses 1. First disease 2. Second disease 3. Third disease 4. Fourth disease 5. Fifth disease 6. Sixth disease
Measles Scarlet fever Rubella (German measles) Duke's disease (scarlantinella) Erythema infectiosum Exanthem subitum (Roseola infantum)
Measles (Rubeola, First Disease)
Cause •
RNA paramyxovirus; IP = 8-12days
Spread • •
By airborne droplets from nose and throat secretions, usually 4 days before and 5 days after the appearance of the rash. Secondary attack rate is 80%.
Age •
Children 6 months -3 years of age in developing countries and older children (>5 years) in developed countries.
Immunity • •
One attack of measles generally confers life long immunity. Maternal antibodies protect in infants up to 6 month of age.
Nutrition •
Mortality 400 times higher in the malnourished child (also vit A. deficiency) and also these children excrete measles virus for longer periods indicating prolonged risk to themselves and, of spread to others.
Prodromal Symptoms •
Last 2-3 days, cough, coryza, conjunctivitis, fever, conjunctivae look glassy, and then the semilunar fold swells (Meyer's sign).
Pediatrics in Last Minutes
51
Koplik's Spots •
Are 1-2 mm bluish-white spots on a red base on the buccal mucosa opposite the first/second lower molars, pathogenomic of measles, generally seen during the first 2 days of symptoms and are often fading as the rash appears
Comby's Sign •
Thin, whitish patches on the gums and buccal mucosa formed of degenerated squamous epithelium.
Rash •
•
On the fourth/fifth day, the macular rash appears consisting of discrete lesions that begins behind the ears and become confluent as rash spreads from hairline downward, sparing palms and soles; Rash and fever disappear in 3-4 days signalling the end of the disease. Prolonged fever suggests a complication of measles. The entire illness lasts about 10 days.
Complications • Respiratory: otitis media, pneumonia, fatal giant cell pneumonitis in the immunosuppressed, flare up of primary TB. • Neurological: febrile fits, meningitis, encephalitis, subacute sclerosing panencephalitis (late and rare): • Digestive: resistant diarrhoea, achlorhydria, hepatitis, appendicitis (due to lymphoid tissue blocking the lumen of the appendix); • Miscellaneous: myocarditis, glomerulonephritis, thrombocytopenic purpura, tuberculin anergy, keratoconunctivitis sicca, intrauterine infection may cause fetal malformations.
Diagnosis •
Serology for measles IgM antibody. Warthin-Finkleday cells are multinucleate giant cells with inclusion bodies in the nucleus and cytoplasm, found in respiratory and lymphoid tissues, pathognomonic of measles.
52
Pre-NEET Pediatrics
Prevention • Measles vaccine: a live attenuated, tissue-culture vaccine presented as freezdried product. • WHO recommends immunization at 9 months of age. 0.5ml SC injection, reconstituted vaccine should be kept on ice and used within 1 hour. 5-10 days after immunization, a mild 'measles' illness (fever and rash) may occur - self limiting. • Immunity develops 11-12 days after vaccination. Susceptible contacts over 9-12 months age, may be protected against measles with measles vaccine, provides this is given within 3 days of exposure.
Rubella (German Measles, Third Disease)
Cause •
Togavirus, RNA virus; IP= 14-21 days (average 18 days). The patient is infective 5 days before and 5 days after the day the rash starts.
Presentation • •
Postauricular, cervical and suboccipital lymphadenopathy (may appear as early as 7 days before the appearance of the rash). Macular rash spreads from hairline downwards, clearing as it spreads. The rash disappears aitogether bythe third day. -
Forschemier's Spots •
(palatal petechiae), also seen in scarlet fever and infectious mononucleosis.
Test •
The most widely used serological diagnostic test is the haemagglutination inhibition test.
Treatment •
Usually none needed, self limiting
Pediatrics in Last Minutes
53
Complications •
Arthritis especially among women, encephalitis, thrombocytopenic purpura, malformations in utero.
•
Infection during the first 4 weeks of pregnancy: Cataract in 70%; during weeks 4-8: patent ductus arteriosus; during weeks 8-12: deafness.
Prevention •
Live attenuated RA 27/3 vaccine, produced in human diploid fibroblast; seroconversion occurs in more than 95%; pregnancy is considered a contraindication to rubella immunization.
Erythema Infectiosum (Fifth Disease) •
Cause: Human parvovirus B19, primarily affects children 3-12 years old..
•
Manifests as a bright-red 'slapped cheek' appearance (a raised, fiery flush on the cheeks), followed by a diffuse lacy reticular rash (on the limbs) that waxes and wanes over 3 weeks.
•
Adults with fifth disease often have arthritis, and fetal hydrops can develop in association with this condition in pregnant women.
•
Parvovirus B19 is also the cause of aplastic crises in sickle cell disease.
Exanthem Subitum (Roseola Infantum, Sixth Disease) •
Cause: Human herpes virus 6 (HHV-6B).
•
MC in children under 3 years of age. As in erythema infectiosum, rash usually appears after fever has subsided. It is a rose-pink maculopapular rash (spa rinface); resolves within 2 days.
Chicken Pox (Varicella)
Etiology –
Varicella-zoster virus also called human (alpha) herpes virus 3. Recovery from primary infection is commonly followed by the establishment of latent infection in the sensory ganglia often without clinical manifestations.
54
Pre-NEET Pediatrics –
Source of infe Source infecti ction on is is usua usually lly a case case of chi chicken cken po pox. x. Spr Spread ead by respiratory droplets and from the vesicular fluid during the first 3 days of the illness. The scabs however are not infective.
–
Peri eriod od of of infec infectiv tivity ity is from 1-2 days days befo before re the app appear earanc ance e of the rash and 4-5 days thereafter.
–
Seconda Secon dary ry atta attack ck rat rate e is abo about ut 90%. 90%. One One atta attack ck usu usual ally ly giv gives es immunity for life.
Presentation –
Incu In cuba bati tion on pe peri riod od =1 =14 4 to to 16 16 da days ys..
–
Prodr Pr odromal omal sta stage ge cons consist istss of of fever fever,, malai malaise se and shi shiver vering ing..
–
Rash comes Rash comes on the the day day the the fev fever er sta starts rts.. It is is centr centrii peta petall in distributiort,first appears on the trunk where it is abundant and then on the extremities. Mucosal surfaces are also involved, but palms and soles are unaffected.
–
The rash The rash adv advan ance cess quick quickly ly thr throu ough gh the the sta stage gess of macu macule le,, papule, vesicle, pustule and scab (pleomorphic rash)
Complications –
Secondary Second ary bac bacter teria iall infec infectio tion n of the ra rashe shes; s; var varice icella lla pneumonia; haemorrhages into the lesion; encephalitis, acute cerebellar ataxia; purpura fulminans; arthritis; glomeruloniphritis; Reye's syndrome.
Treatment –
Symptoma Sympto mati ticc and sup suppo portiv rtive, e, since since thi thiss is a self self-li -limi miti ting ng condition. Aspirin should NOT be used as it may increase the risk of developing Reye's syndrome.
Prevention –
Vari aricell cella a zost zoster er immun immunoglo oglobuli bulin, n, 1.25 1.25 to 5 ml give given n with within in 72 hours of exposure will modify or prevent the disease.
–
Live Liv e atten attenua uated ted chi chicke cken n pox pox vacci vaccine ne is is now now avai availa labl ble. e.
Pediatrics in Last Minutes
55
Periods of Infectivity In Childhood Infectious Disease Disease Chic Ch icke kenp npox ox Diph Di phth ther eria ia Mumps Rubella Meas Me asle les s
Infectious periods 5 day days s bef befor ore e ras rash h to 6 day days s afte afterr last last cr crop op 2-3 23 wee weeks ks (s (sho hort rter er wi with th an anti tibi biot otic ic th ther erap apy) y) 3 days before salivary swelling to 7 days after 7 days before onset of rash to 4 days after Fro rom m on onse sett of pr prod odro roma mall symp mpto tom ms to 4 da day ys aft fte er on ons set of rash Scarlet Scarl et fever 10-21 days after onse onsett of rash (sho (shortened rtened to 1 day by penic penicillin) illin) Whooping cough 7 days after exposure to 3 wks after onset of symptoms (shortened to abt 7 days by antibiotics)
Precocious Puberty • •
•
Preco ecoci cious ous pu pube berty rty is defi define ned d as the the ons onset et of of secon seconda dary ry sexu sexual al characters before 8 yr of age in girls and 9 yr in boys. True (cen (centra tral) l) pr precoc ecociou iouss pub puberty erty (go (gonad nadotro otropin pin depe dependan ndant) t) is due to hypothalamic-pituitary-gonadal activation. Caused by – Idiopathic – Or Orga gani nicc brain brain lesi lesion ons: s: brai brain n tumour tumours, s, sev sever ere e head head trauma trauma,, hydrocephalus, hypothalamic hamartoma, CNS infections. – Hy Hypo pothy thyroi roidi dism sm,, pr prolo olong nged ed an and d un untr trea eate ted. d. P r ec ec oc o c io i o us u s p s eu e u do d o p ub ub e rt r t y ( pe p e ri r i ph p h er e r al a l , g on o n ad a d ot o t ro r o pi pi n independent): here secondary sex characters appear but there is no activation of hypothalamic-pituitary-gonadal hypothalamic-pituitar y-gonadal axis. Caused by Females emales: Congenital adrenal hyperplasia, Hypothyroidism, – F Exogenous estrogen, McCune Albright syndrome, Aromatase excess syndrome. Males es : Congenital adrenal hyperplasia, Hypothyroidism, – Mal Exogenous androgens, Activating LH receptor mutations, HCG-secreting tumour tumour..
Common Pediatric Abdominal Malignancies
Wilms Tumour • MC re rena nall mal malig igna nancy ncy of ea early rly chi child ldhoo hood d (2-4 (2-4 ye year ars) s).. • Risk factors: – WAGR - Wi Wilms lms tumo tumour ur,, Ariir Ariiridi idia, a, Geni Genital tal ano anomal malies ies,, menta mentall Retardation. – Den Denys ys--Dr Dras ash h syndr syndrome ome (Gona (Gonada dall dysge dysgenes nesis is and and nephro nephropa pathy thy leading to renal failure, dominant negative mutation in the WT-1 WT -1 gene;
56
Pre-NEET Pediatrics –
BeckwithBeckwit h-Wi Widema deman n syn syndro drome me (Enl (Enlarg argemen ementt of body org organs ans,, hemihypertrophy hemihypertroph y, renal medullary cysts, adrenal cytomegaly).
•
Huge palpa Huge palpable ble fla flank nk mas mass, s, hemi hemihy hypert pertrop rophy hy,, hemat hematuri uria, a, hypertension.
•
Diagno Dia gnosis sis by a/U a/Ultra ltrasoun sound d and and con confirm firm by exci xcisio sional nal biop biopsy sy..
•
Tr ea ea tm t m e nt nt t r an an sa s a bd b d om o m in i n al a l n e ph p h re re ct c t o my my f o ll l l o we we d b y chemotherapy (vincristine, dactinomycin); prognosis is usually good.
Neuroblastoma •
MC tum tumour our of adr adren enal al medu medulla lla bu butt can can occu occurr anyw anywhe herre alon along g sympathetic chain; affects children <5 years.
Ris k fac factor torss : N-myc oncogene; Neurofibromatosis, tuberous • Risk sclerosis, pheochromocytoma, Hirschsprung's disease. •
Clinicall Clinic ally y: abdomi abdominal nal mas mass, s, hepa hepatom tomega egaly ly,, leg ede edema, ma, per perior iorbit bital al bruising.
•
HVA in urine
•
Tre reatm atment ent loca localiz lized ed tumo tumours urs cur cured ed wit with h exci excisio sion; n; che chemoth mothera erapy py and radiotherapy can be used as adjunct. Good prognosis if diagnosed <1 year of age. Shimada classification is used.
D/D of Wilms' Tumour, Abdominal Neuroblastoma Wilms tumor
Neuroblastoma
Age in years
2-5
<2 yrs, 30% under 1 year
Health
Well
Usually ill, Lethargic
Clinical
Swollen abdomen
Pale, weight loss, diffuse bone pain
Mass
Lobulated
Irregular edge, craggy hard
Crosses midline
Rare
Common
Bilateral
Rare
Occasional
Renal pelvis
Grossly distorted
Pushed down by mass above
Ultrasound Metastases
Calcification found Lungs
Bone (orbits classically)
Pediatrics in Last Minutes
57
Approach to a Child with Anemia
FAB classification divides AML into eight types M0 to M7. This scheme takes into account: i. The degree of maturation (Mo to M3) ii. The lineage of leukemic blast (M4 to M7). Class
Blast cells
Mo minimally differentiated AML
•
Myeloperoxidase negative
•
Auer rods negative
•
Express myeloid lineage antigen
•
3 % blasts myeloperoxidase
M1 AML without differentiation
positive M2 AML with maturation
M3 Acute promyelocytic
•
Auer rods positive
•
Full range of myeloid maturation
•
Myeloperoxidase positive
•
Auer rods positive
•
Maximum Auer rods. Contd...
58
Pre-NEET Pediatrics
Contd... Class
Blast cells
leukemia
•
Myeloperoxidase positive
M4 Acute myelomonocytic leulcemia
•
Both myelocytic and Monocytic differentiation
– Myeloperoxidase (+) ye } Myeloblastic – Auer rods (+) ye – Monoblastic – Nonspecific esterase (+) ve Monoblastic M5 Acute monocytic leukemia M6 Acute erythroleukemia M7 Acute Megakaryocytic
•
Non specific esterase (+) ve
•
Myeloperoxidase and Auer rods (-) ve
•
Dysplastic erythroid precursors
•
Myeloblasts seen in advanced age
•
Blasts of megakaryocytic lineage
•
GP IIb/ IIIa or VwF (+) ve
Juvenile Rheumatoid Arthritis can be divided in 3 major clinical types
Pediatrics in Last Minutes
59
GLYCOGEN STORAGE DISEASES •
Glycogen storage diseases result from a hereditary deficiency of one of the enzymes involved in the synthesis or sequential degradation of glycogen.
•
Clinical features depend on type of enzyme deficiency and organ involvement.
•
Glycogen storage diseases can be divided into:
1.
Hepatic form (Liver glycogenoses) – Liver is the key player in glycogen metabolism.
–
It contains enzymes that synthesize glycogen for storage and ultimately break it down into free glucose, which is then released into blood.
–
So, Aninherited deficiency of hepatic enzymes that are involved in glycogen metabolism leads to i. Storage of glycogen in liver - Hepatomegaly. ii. Reduction in blood glucose - Hypoglycemia. Examples of liver glycogenoses are i. Type I glycogenosis - Glucose - 6 - phosphatase deficiency (Von Gierke disease). ii. Type III glycogenosis - Debranching enzyme def iii. Type IV glycogenesis - Branching enzyme def iv. Type VI glycogenosis - Liver phosphorylase def
–
2. Myopathic form (Muscular glycogenoses) – In skeletal muscle, as apposed to the liver, glycogen is used predominantly as a source of energy. – This is derived by glycolysis, which leads ultimately to the formation of lactate. – So, enzyme deficiency leads to: i. Glycogen deposition in muscle ii. Muscle cramp after exercise iii. Exercise - induced rise in blood lactose levels owing to block in glycolysis iv. There may be myoglobinemia – Examples are: i. Type V glycogenosis - phosphorylase deficiency (McArdle disease). ii. Type II glycogenosis -phosphofructokinase def
60 3.
Pre-NEET Pediatrics Miscellaneous types – Associated with glycogen storage in many organs and death in early life. – Examples: i. Type II glycogenosis - Acid maltase deficiency (Pompe 's disease)
Pediatrics in Last Minutes
61
An Approach to IEM with Acidosis
Important Lysosomal Storage Diseases Disease
Deficient enzyme
Sphingolipidoses • GM1, gangliosidosis • GM2, gangliosidosis i. Tay-sachs disease ii. Sandoff disease
-galactosidase
Glycogenosis type II • Pompe disease
- 1,4, glucosidase
Glycogen
- 1, Iduranidase
Dermatan sulfate Heparan sulfate
Mycopolysaccharidose • MPS I (Hurler) • MPS II (Hunter) • Scheie syndrome
Accumulating metabolites
GM1 ganglioside Hexosaminidase - subunit GM2 ganglioside Hexosaminidase - subunit GM2 ganglioside
Induronate sulfatase Sulfoiduranate sulfatase
Contd...
62
Pre-NEET Pediatrics
Contd... Disease
Deficient enzyme
Accumulating metabolites
Sulfatidoses • Metachromatic leukodystrophy • Krabbe disease • Gaucher disease • Fabry's disease • NiemannPick disease
Arylsulfatase A
Sulfatide
Galactosylceramidase Glucocerebrosidase - Galactosidase A Sphingomyelinase
Galactocerebroside Glucocerebroside Ceramide trihoxoside Sphingomyelin
Others • Wolman disease
Acid lipase
Cholesterol ester, triglyceride
LEUCODYSTROPHY •
• •
•
Leucodystrophy refers to progressive degeneration of the white matter of the brain due to imperfect growth or development of the myelin sheath, the fatty covering that acts as an insulator around nerve fibre. Myelin which lends its color to the white matter of the brain, is a complex substance made up of at least ten different chemicals. The leucodystrophy are a group of disorders that are caused by genetic defects in how myelin produces or metabolizes these chemicals. Each of the leucodystrophies in the result of a defect in the gene that controls one (and only one) of the chemicals.
Specific leucodystrophies include:
– Metachromatic leucodystrophy – Krabbe 's disease
•
– Adrenoleucodystrophy – PelizaeusMerzhacher disease
– Canavans disease – Alexander disease
Symptoms vary according to the specific type of leucodystrophy and may be difficult to recognize in the early stages of the disease.
Canavan's Disease • • •
Autosomal recessive disorder Caused due to deficiency of the enzyme N-Aspertoacylase. This leads to accumulation of N-Acetyl aspartic acid in brain and urine.
Pediatrics in Last Minutes •
63
It is characterized by the clinical traid of - Hypotonia, Head lag, Macrocephaly
Adrenoleucodystrophy • • • •
X-linked recessive disorder Caused due to deficiency of Acyl-CoA synthetase . Onset is about 5-10 years Main symptoms are ataxia, spasticity, motor deficits, cortical blindness. • Marocephaly is not a key feature
Metachromatic leucodystrophy • • • •
•
Autosomal recessive disorder Caused due to Arylsulfatase A deficiency Onset is in the 2nd year. Symptoms are inco-ordination, especially gait disturbance, then general regression, optic atrophy, combined upper and lower motor neuron signs. Marocephaly usually late.
Krabbe leucodystrophy • • • • •
Autosomal recessive Caused due to deficiency of Beta-galactosidase deficiency Onset is in the first 6 months of life Optic atrophy, spasticity Head often small
Wolman's Disease •
Wolman disease is very rare, with only 50 reports of the disease published in the worldwide medical literature. It is an autosomal recessivedisease and affects both males and females. • The disease affects the breakdown and use of fats and cholesterol in the body and belongs to a family of disorders called lipid storage disorders. • Wolman disease is caused by mutations in the LIPA gene. The LIPA gene encodes for an enzyme called lysosomal acid lipase which is found in the lysosomes. It breaks down fats such as cholesteryl esters and triglycerides so that they can be used by the body.
64 •
Pre-NEET Pediatrics A shortage of lysosomal acid lipase leads to accumulation of triglycerides, cholesteryl esters and other fats within the cells of the affected individuals. This accumulation as well as malnutrition caused by the body's inability to use lipids properly result in signs and symptoms of wolmans disease.
Clinical Features •
• •
•
In affected individuals harmful amounts of lipids accumulate in the spleen, liver, bone marrow, small intestine, adrenal glands and lymphnodes. In addition to fat deposits, calcium deposits in the adrenal gland are also seen. Infants with wolman disease are healthy and active at birth but soon develops signs and symptoms of the disorder. These may include – Enlarged liver and spleen – Poor weight gain – Low muscle tone – Jaundice – Vomiting – Dianthoea – Developmental delays – Anemia (low amount of iron in blood) poor absorption of nutrients from food. Children affected by this condition develop severe malnutrition and generally do not survive past early childhood.
Diagnosis
X-Ray Findings of Wolman Disease Characteristic pattern of calcification (outlining the outline of the cortex of both the glands) in enlarged but normally shaped adrenal glands.
CT Scan and MRI •
•
It shows enlargement of the liver and spleen, calcification of both adrenal glands and lymphadenopathy (enlarged lymph nodes). The definitive diagnosis of wolmans disease is made by
Pediatrics in Last Minutes
•
65
demonstration of deficient lysosomal acid lipase activity in leucocytes. Amniocentesis can be performed for prenatal diagnosis of wolmans disease.
Treatment •
Currently there is no cure for wolmans disease so treatment focuses on management of symptoms. If the adrenal gland is not making enough hormones and steroids, replacement steroids and hormones can be given.
Pre NEET Pediatric INCLUDING RECENT ALL INDIA AND AIIMS
TOPICS
QUESTIONS CLINICAL QUESTIONS AND QUESTION BASED ON EXPECTED NEET PATTERN
Q 1. A neonate delivered at 37 wks of gestation with a birth weight of
1.9 kg develops intolerance to feed/ lethargy/abdominal distension on 2nd day. Sepsis screens is negative. Physical examination is unremarkable. PCV is observed to be 72%. Which of the following represents with best management option: a. Hydration with IV fluids b. Partial exchange transfusion c. Presumptive treatment for sepsis d. Medical management for intestinal obstruction Q 2. A premature baby born at 33 wks of gestation with a birth weight
of 1500 gm has stable vitals. Which of the following you will choose as initial feeding method of choice: a. Intravenous fluids b. Intravenous fluids and oral feeding c. Orogastric tube/ alternate oral route d. Total parenteral nutrition Q 3. A 2 yrs old male child presents to paediatric emergency
department with history of fever x 2 wks. He has received multiple antibiotics. Blood tests for Typhoid, Malaria, Dengue are all negative. He however had sterile pyuria in one of reports (urine C/s - sterile). BCG scar is indurated and H/o conjunctivitis, chelitis and erythematous rash over body for initial 5 days of illness is obtained the most likely treatment of choice is: a. Cyclosporin b. Prednosolone c. Methotrexate d. IvIg
Questions
67
Q 4. A child presented with intermittent episodes of left sided flank
pain. USG KUB reveals a large hydronephrosis with dilated renal pelvis and cortical thinning with a normal ureter. Kidney differential function was observed to be 19%, which of the follo wing is th e best management: a. Nephrectomy b. Pyeloplasty c. External drainage d. Endopylostomy Q 5. Which of the following statements about neuroblastoma is false:
a. b. c. d.
Most common extracranial solid tumor in children >50% present with metastasis at the time of diagnosis Lung metastasis is common Often encase aorta and its branches at time of diagnosis
Q 6. A very low birth weight preterm baby is on ventilator for
respiratory distress. Baby presents with clinical features of necrotizing enterocolitis with perforation. What is the appropriate management? a. Conservative management b. Immediate laparotomy c. Extra corporeal membrane oxygenation with surgery after stabilization d. Peritoneal drainage Q 7. A child with 3 days history of upper respiratory tract infection
presents with moderate respiratory distress and stridor at rest. What is the most appropriate management? a. A single daily dose of I/V ceftriaxone b. Mechanical ventilation c. Hospitalization and Nebulization with racemic epinephrine diluted with water. d. Reassure parents and advise on symptomatic treatment for fever. Q 8. A child is brought with drowsiness, decreased deep tendon
reflexes and seizures. On examination the child has a blue line on gums. There is a history of constipation. Which will be most appropriate drug that should be used in this child? a. EDTA b. DMSA c. BAL d. Pencillamine
68
Pre-NEET Pediatrics
Q 9. A 7 yr old girl is bought with complaints of generalized swelling
of body. Urinary examination reveals grade 3 proteinuria and the presence of hyaline and fatty casts. She has no history of hematuria, which of the following statements about her condition is true: a. No IgG deposits or C3 deposits on renal biopsy b. L3 level will be low c. IgA nephropathy is the likely diagnosis d. Alport's syndrome is the likely diagnosis Q 10. A 8 yr old male presents to paediatric casualty with non
blanching rashes on skin, swelling of knee joint x 2 days, Malena associated with abdominal pain x 1 day. Platelet count, prothrombin time are normal. Urine R/M shows 2+ protein, hematuria. What should be your line of management? a. Symptomatic treatment with rest and analgesia b. Short course of steroids c. Steroids with immunosuppressive d. Skin biopsy and orthopaedic referral Q 11. A 2 yrs old boy presents with short stature and bowing of legs.
X-ray knee shows evidence of rickets. He has been given Vit D twice 2 months back. Blood investigation shows S.calcium 9 mg/dL, S. Phosphate 2 mg/dL, S. Alkaline phosphatase 1030 µg/dL, S.PTH and S. Bicarbonate levels are normal. What should be the next line of management? a. Give calcitriol in very large doses b. Oral phosphate and Vit D supplements c. Oral calcium and phosphate supplements d. Restrict phosphate, give calcium and vit D supplements Q 12. A six months old girl is having recurrent UTI. Ultrasound
abdomen shows bilateral hydronephrosis. MCU (Micturating cysts urethrogram) shows bilateral grade IV vesicoureteral reflux. The treatment of choice is: a. Endoscopic injection of polyteflon at uretic orifice b. Uretric reimplantation c. Bilateral ureterostomy d. Prophylactic antibiotics Q 13. A 10 months old boy, weighing 3 kg has polyuria, polydipsia
and delayed motor milestones. Investigations show blood level of creatinine 0.5 mg/dL, potassium 3 meq.L, sodium 125 meq/L, chloride
Questions
69
88 meq/L calcium 8.8 mg/dL, PH 7.46 and bicarbonate 26 meq/L Ultrasonography shows medullary nephrocalcinosis. The most likely diagnosis is: a. Renal tubular acidosis b. Diabetes syndrome c. Bartter syndrome d. Pseudohypoaldosteronism Q 14. A 3 yr old child with acute onset of fever of 1040F developed
febrile seizures and was treated. He had similar episode at 2, 2 ½ yr of age. Which of the following statements is false? a. The risk of epilepsy is 4% in this case b. Long term phenytoin is required c. Intermittent clobazan and paracetamol should be used d. Consider EEG and imaging Q 15. A 14 yr old boy has history of frequent myoclonic jerks on
awakening, making hair combing and tooth brushing difficult for past 6 months. Now, he has presented to casualty with generalised tonic clonic seizure. Neurological examination is normal, which of the following statements is true? a. Drug of choice is carbamazepine b. Carbamazepine can be discontinued after complete remission c. Response to anticonvulsants is poor d. EEG in this condition shows a 4-6/ sec irregular spike and wave pattern, which is enhanced by photic stimulation. Q 16. A 2 yr old child is bought by parents with history of seizures
and development delay. He has multiple hypopigmented macules over the back. What is the most probable diagnosis? a. Neurofibromatosis type I b. Tuberous sclerosis c. Struge Weber's syndrome d. Vao Nippel Lindau disease Q 17. A 5yr old child is admitted with headache, vomiting and difficulty
in walking. Physical findings include truncal ataxia, papilledema and left lateral rectus palsy. Finger to nose test was normal. The most likely diagnosis is: a. Dandy Walker syndrome b. Syringobulbia c. Arnold Chiari malformation d. Medulloblastoma.
70
Pre-NEET Pediatrics
Q 18. A 5 months old formula fed infant has been brought with
complaints of watery diarrhoea of 2 days duration and irritability of one day. Physical examination reveals a markedly irritable child with a rather doughy skin and rapid pulse, borderline CFT. Which of the following statements is true? a. Give I/V bolus of normal saline b. Give I/V bolus of ringer lactate c. Calculate water deficit and replace over 24 hrs at a rate of 0.5 meq/L/hr. d. Treat as any dehydration and give moderate dehydration correction. Q 19. Study the following inheritance pattern
Which of the following statements is true?
a. b. c. d.
Autosomal dominant Mito chondrial Autosomal recessive X-linked dominant
Q 20. A newborn is born to a HIV positive woman an ART. He was
given Nevirapine at birth. Which of the following statements regarding future management is false? a. Start Cotrimoxazole prophylaxis at 1 month till HIV infection can be ruledout. b. Advise exclusive top feeding or exclusive breast feeding c. Perform DNA PCR for HIV at 6-8 wks of age. d. Do not give OPV and BCG at birth.
Questions
71
Q 21. A. Assertion: An infant presents with hypotonia and areflexia.
During his intrauterine period there was polyhydramnios and decreased fetal movements. He is diagnosed as floppy infant. B. Reasoning: Electromyography will show a decremental response on repetitive stimulation and muscle biopsy will be normal. a. Both statement A and B are true, and B is the correct explanation of A b. Statement A is true while statement B is false. c. Statement A is false while statement B is true. d. Both statements A and B are true but B is not the correct explanation of A. Q 22. Previously well newborn discharged as "healthy" from the
nursery at D1 of life presented casualty at D7 of life with poor feeding, poor pulses, tacycardia, an ashen appearance. He was immediately intubated and put on inotropic support. Sepsis serum was negative. Urgent echo done was suggestive of small left ventricle with atretic mitral valve. Prostaglandin E1 infusion was immediately started. He fails to improve with same. What should be next line f management? a. Increase inotropic support and continue same management b. Emergency atrial septostomy c. Corrective surgery d. Upgrade antibiotics Q 23. A 1 ½ yr old child presents to paediatric casualty with irritability,
restlessness, severe respiratory distress and cyanosis. Mother gives history of vigorous crying ½ hr back. On auscultation, a short systolic murmur and soft 2nd heart sound are heard in left 3rd and 4th parasternal spaces. What should be the immediately intervention? a. Assurance of mother that nothing should be done and he will become alright spontaneously. b. An urgent echo and chest x-ray is planned. c. Knee-chest position, oxygen and Inj. Morphine administration d. agonists like Isoxuprine administration Q 24. A 1 yr old infant presented to paediatric casualty with excessive
crying, irritability and billous vomiting. Mother gives history of passage of blood per rectum once mixed with stools. He is hemodynamically stable but not allowing examination. X-ray abdomen shows ascites with distended bowel loops.What should be next line of management: a. Manage as a case of acute invasive gastroenteritis with I.V. antibiotics and I.V. fluids
72
Pre-NEET Pediatrics
b. Send PT, aPTT and give Inj Vit K c. Do urgent USG and perform hydrostatic reduction. d. Do urgent USG and prepare for urgent laparotomy Q 25. A 8 day old breast fed male baby presents with vomiting, poor
feeding and loose stools. On examination the heart rate is 190/min, blood pressure 50/30 mmHg, respiratory rate 72 breaths/ minute and capillary refill time of 4 sec. Investigations show Hb 15 gm/dL, SNa+ - 120 meq/L K+ - 6.8 meq/L, Cl- 81 meq/L, bicarbonate 15 meq/L, creatinine 0.6 mg/dL. The most likely diagnosis is: a. 21 hydroxylase deficiency b. 3- hydroxy steroid deficiency c. 11 hydroxylase deficiency d. Aldosterone synthase deficiency Q 26. A. Assertion: A 8 day old child presents yellow sclera, whitish
stool and turmeric colour urine with reducing substance positive on 3rd day of septicaemia on broad spectrum antibiotics. R. Reasoning: This is a case of severe sepsis and antibiotics should be immediately upgraded a. A and R both correct and R is explanation of A b. A and R both correct but R is not explanation of A c. A correct R wrong d. A wrong R correct Q 27. A: Assertion: A 1 month baby presents with history of jaundice, turmeric colored urine and pale stools since birth. Examination reveals liver span of 10 cm TORCH IgM is positive for Rubella. R: Reasoning: A liver biopsy should be done to differentiate neonatal hepatitis from biliary atresia a. A and R both correct and R is explanation of A b. A and R both correct but R is not explanation of A c. A correct R wrong d. A wrong R correct Q 28. 30 yr old lady delivered a healthy baby at 37 wk of gestation, she was positive for HBSAg but negative for HB C Ag. Which of the following is the most appropriate treatment for the baby: a. Both active and passive immunization soon after birth b. Passive immunization soon after birth and active immunization at 1 yr of age. c. Only passive immunization soon after birth d. Only active immunization soon after birth
Questions
73
Q 29. A 7 yr old girl presents to casualty with history of fever x 4
days, epistaxis and vomiting. She is diagnosed to be Dengue Heorrhagic fever (DHF), which of the following does not constitute the diagnosis of DHF? a. Thrombocytopenia b. Hypoalbuminemia c. Pleural effusion d. Decreased hematocrit Q 30. A child died soon after birth. On examination there was pallor, hepato splenomegally and edema all over body. Most probable diagnosis is: a. - Thalassemia b. - Thalassemia c. Herditary spherocytosis d. ABO in computability/ sickle cell anemia AIIMS MAY 2012
Q 1. Which of the following will favour the diagnosis RDS in newborn? (AIIMS Nov 2010)
a. b. c. d.
Reciept of antenatal steroids Air bronchogram in chest x-ray Manifests after 6 hours Occurs after term gestation
Q 2. All the following can occur in a neonate for heat production
except (AIIMS Nov 2006) a. Shivering b. Universal flexion like a fetus c. Breakdown of brown fat with adrenaline secretion
74
Pre-NEET Pediatrics
d.
Cutaneous Vasoconstriction
Q 3. Due to advances in Cancer treatment the prognosis of which of
the following has become better? a. Glioblastoma multiforme b. Esophageal carcinoma c. ALL in children d. Cholangio carcinoma Q 4. A newborn baby presented with profuse bleeding from the
umbilical stump after birth. Rest of the examination and PT, APTT are within normal limits. Most probable diagnosis is: a. Factor X deficiency b. Glanzmann thrombasthenia c. Van Willebrand disease d. Bernard Soullier disease ALL INDIA PG MEDICAL ENTRANCE EXAMINATION 2012
Q 1. A 1 year old girl presents with fever since 24 hrs and on and off
coughing. She is passing foul-smelling bulky stools and had 4 attacks of bronchitis in past. The girl is suspected of having: a. Cystic fibrosis b. Maple synp urine disease c. Phenylketonuria d. Impaired glucoronidization Q 2. A 2 yrs old boy keeps on looking at his own hands and does not
respond on calling. His mother development is otherwise normal, probable diagnosis would be: a. Autism b. Depression c. ADHD d. Schizophrenia Q 3. Regarding parenteral nutrition of newborns, 20% intralipid has
are the following advantage over 10% intralipid solution except a. Reduced phospholipids b. Increased EFA (essential fatty acids)
Questions
75
c. Increased Calorie density/ mL of fluid d. Better/improved trigly ceride clearance Q 4. Most frequently identified fetal tumor?
a. b. c. d.
Neuroblastoma Wilms tumor Fibro sarcoma Sacrococcygeal teratoma
Q 5. A case of meningomyelocoele was posted for surgery. Till patient
is waiting for surgery the covering of sac will be protected by a gauze piece soaked in a. Normal saline b. Tincture iodine c. Methylene blue d. Mercuro chrome Q 6. Least chances of infective endocarditis is seen with
a. b. c. d.
Small VSD Small ASD Mild As Mild AR
Q 7. True about jaundice in neonates is:
a. b. c. d.
Can be seen after ventouse delivery Physiological jaundice is seen with 48 hours of birth Increased conjugated bilirubin leads to kernicterus Breast milk jaundice is maximum in 7 days from birth
Q 8. A term infant born to a diabetic mother was lethargic few hours
after birth and his blood glucose was 3 mg%. What should be done next? a. Give 10% Dextrose orally b. 10% Dextrose I.V. c. Give expressed breast milk d. Do exchange transfusion Q 9. A mentally challenged child with dysphagia and Ophistotonic
spasms is also having Choreoathetoid movements and self-mutilating behaviour with positive family history. Which of the following investigations is suggested? a. S. Uric acid
76
Pre-NEET Pediatrics
b. c. d.
S. Alkaline phosphatase S. LDH Lead levels in blood
Q 10. A child who can use 4-5 words including meaningful nouns
and represent his ideas mostly by non-verbal communication then what is his probable age? a. 15 months b. 18 months c. 24 months d. 12 months Q 11. All of the following can occur in a neonate for heat production
except: a. b. c. d.
Shivering Universal flexion like a fetus Breakdown of brown fat with adrenaline secretion Cutaneous vasoconstriction
Q 12. A down's child mentally retarded, a/e
a. b. c. d.
Deleted 21 Trisomy 21 Robert Sonian Mosaic
AIIMS NOVEMBER 2011
Q 1. PGE causes worsening in infant with:
a. b. c. d.
PS without VSD Hypoplastic left heart syndrome Obstructive TAPVC Obstruction in aorta
Q 2. Premature baby of 34 wks was delivered. Baby had bullous
lesion on the body x-ray shows periostitis. What is the next investigation. a. VDRL for mother and baby b. EIISA for HIV c. PCR for T.B. d. Hepatitis surface antigen for mother
Questions
77
Q 3. A newborn presents with congestive heart failure, on examination
has bulging anterior fantanelle with a bruit on auscultation. Transtantanellar USG shows a hypoechoic midline mass with dilated lateral ventricles. Most likely diagnosis is: a. Medullo blastoma b. Encephalocele c. Vein of galen malformation d. Arachnoid cyst Q 4. What is the diagnosis in a patient who has situs inversus and
sinusitis: a. Kartagener's syndrome b. Good pasture syndrome c. Cystic fibrosis d. William Campbell syndrome Q 5. Short child with low T4 and raised TSH and swelling of pituitary,
what is the diagnosis? a. Pituitary tumour b. Primary hypothyroidism c. TSH secreting pituitary adenoma d. TSH resistance Q 6. Episodic anemia with jaundice since birth except:
a. b. c. d.
G 6pd Sickle cell anemia PNH Hereditary spherocytosis
Pre NEET Pediatric INCLUDING RECENT ALL INDIA AND AIIMS
AN
TOPICS
S W E R S
CLINICAL QUESTIONS AND QUESTIONS BASED ON EXPECTED NEET PATTEN 1. Ans. is b. Partial exchange transfusion (Ref: Nelson 18th, Pg. 1773, Meharban Singh 7th, Pg. 305) This is a case of neonatal polycythemia which is symptomatic in the form of lethargy and GIT manifestations The management of choice for such a case is partial exchange transfusion. The diagnosis of polycythemia is made when venous or central hematocrit is greater than 65%
Etiology 1. 2.
Delayed clamping of cord Twin-twin transfusion syndrome. Causes polycythenia in the recipient twin 3. Infants of diabetic mother 4. Intra uterine growth retarded babies due to chronic placental insufficiency. 5. Rare causes: Cyanotic congenital heart disease, Cretinism, Trisomy 13,18 and 21, Beckwtih-Wiedemann syndromes, dehydration.
Clinical Features 1.
Cardiopulmonary–Tacypnea, Tacycardia, cyanosis and cardiomegally. 2. CNS–Lethargy, hypotonia, poor feeding, seizures, irritability. 3. Transient renal failure due to reduced perfusion of kidneys. 4. Hyperbiliribenemia 5. Thrombotic complications including renal vein thrombosis 6. Hypoglycemia, hypocalcemia, hypomagnesemia
Answers
79
Treatment
The volume for exchange is determined by the following calculation: Volume = (Observed HCt – desired HCt)/Observed HCt X Blood volume HCt = hematocrit Desired HCt = 50% (usually) Blood volume = 80 ml/kg for term babies 100 ml/kg for preterm babies. 2. Ans. is c. Orogastric tube/ alternate oral route (Ref: Meharban Singh 7th, Pg. 191) The mode of initial feeding depends upon the gestational maturity and hemodynamic stability of the baby. – Infants with severe birth asphyxia respiratory distress, apneic attack, sezures, sepsis, NEC, shock babies should be maintained on intravenous infusion till their clinical condition stabilizes.
80
Pre-NEET Pediatrics
Mode of Initial Feeding Based on Gestational Maturity Gestational age (Birth weight)
Maturation of feeding skills
Initial feeding method
<30 wks(<1200 gm)
No proper sucking efforts No propulsive gut motility
Intravenous fluids
30–32 wks (1200–1500)
Sucking bursts develop No coordination between suck/swallow and breathing
Oro-gastric Or Naso - gastric feeds
32–34 wks (1500–1800 gm)
Slightly mature sucking Coordination between breathing and swallowing begins
Spoon, paladay Or cup feeding
>34 wks (>1800 gm) Mature sucking More coordination between breathing and swallowing
Breast feeding
Trophic feeds are Minimal (sub nutritional) feeds (5–10 ml/kg/d) used in preterm babies with a gestation of <32 wks or birth weight <1500 gm to harness its trophic benefits on the immature gastro intestinal tract of the baby. 3. Ans is d. IvIg (Ref: Nelson 19th, Pg. 863-865) This is most likely a case of Kawasaki disease (KD) formerly known as mucocutaneous lymph node syndrome and infantile polyarteritis nodosa. The characteristic BCG scar induration, conjunctivitis, skin rash and fever not responding to antibiotics point to diagnosis. Classic clinical criteria for Kawasaki disease are: • Fever persisting at least 5 days and presence of at least 4 principal features: a. Changes in extremities i. Acute: Erythema of palms, soles, edema of hands, feet. ii. Subacute: Periungual peeling fingers, toes in weeks 2 and 3 b. Polymorphous exanthema c. Bilateral bulbar conjunctival injection without exudate
Answers
81
d. Changes in lips and oral cavity: erythem, lip cracking, strawberry tongue e. Cervical lymphadenopathy (>1.5 cm diameter), usually inilateral.
Etiology The cause of KD remains unknown, but certain epidemiologic and clinical features support an infectious origin KD is a vascultis that predominantly affects the medium sized arteries especially the coronary arteries. In the absence of treatment, KD can be divided into 3 clinical phases 1. The acute febrile phage: lasts 1-2 wks 2. The subacute phase: associated with desquamation, thrombocytosisand development of coronary aneurysms and generally lasts about 2 wk. 3. The convalescent phase: begins when all clinical signs of illness have disappeared and continues until ESR returns to normal (about 6 – 8 wk after onset of illness)
Treatment of Kawasaki Disease
Acute stage Interavenous immunoglobulin 2 gm/kg X 10-12 hr and Aspirin: 80-100 mg/kg/d until patient is afebrile for at least 48 hr.
Convalescent Stage Aspirin 3-5 mg/kg until 6-8 wk after illness onset.
Long Term Therapy for Patients with Coronary Abnormalities • •
Aspirin 3-5 mg/kg once daily ± clopidrogel Warfain/ LMW – heparin added for those patients at high risk of thrombosis
Acute Coronary Thrombosis Prompt fibrinolytic therapy with tPA or other thrombolytic agent.
82
Pre-NEET Pediatrics
4. Ans is b. Pyeloplasty (Ref: Nelson 18th, Pg. 2237, Paediatric Nephrology 5th, Pg. 446-448) The child in question is presenting with characteristic feature of PUJ obstruction (dilated renal pelvis with normal ureters).
PUJ (Pelvi Uretric Junction) Obstruction It is caused mostly due to intrinsic muscular abnormalities of the ureter, ureter polyps, ureter folds, crossing vessels and rarely secondary to vesicoureteral reflux. The condition is often asymptomatic and detected on antenatal ultrasonography. Incidental detection of an abdominal mass, hamaturia and UTI are usual features in the older child. Ultrasonography and DTPA renogram establish the diagnosis.
Epidemiology Left side is involved more commonly than right (Bilateral = 10%) Male more commonly involved than females (M:F = 2:1)
Management
Answers
83
A differential function of <40% is considered significant and often an indication for pyeloplasty. Differential function of <10% is often considered a cut off for Nephrectomy. 5. Ans is c. Lung metastasis is common (Ref: Nelson 19th, Pg. 1753-1757) Neuroblastoma is the most common extracranial solid tumor in children and the most commonly diagnosed malignancy in infants. It is derived from primordial neural crest cells and approximately half arise in the adrenal glands and remainder in the paraspinal sympathetic ganglia. Pathogenesis: Etiology most cases remains unknown. Familial neuroblastoma accounts for 1-2% of all cases and associated with a younger age at diagnosis. Genetic characteristics that are of prognostic importance include: i. Poor prognosis: Amplication of MYCN, loss of heterozyqosity of 1p, 11q and 14q gain of 17q. ii. Good prognosis: Hyperdiploidy if child is <1yr at diagnosis
Clinical Manifestations 1. Localized disease: asymptomatic mass or mass related symptoms, including spinal cord compression, bowel obstruction, SVC syndrome. 2. Metastatic disease: Fever, Bone pain, cytopenias, orbital proptosis, subcutaneous nodules, periorbital ecchymosis. 3. Most common sites of metastasis are lymph nodes, bones (long), skill, bone marrow, liver and skin. Lung and brain metastasis are rare.
Diagnosis • •
•
Usually discovered as a mass on plain radiography, CT or MRI Tumor markers including catecholamine metabolites homovanillic acid (HVA), VMA (vanillylmandelic acid) are elevated in urine in 95% of cases. Biopsy from tumor tissue.
Treatment 1. Low risk – Localized tumor : Treatment surgery survival rate 98%. 2. Intermediate risk
84
Pre-NEET Pediatrics
– Localized tumor with regional lymphnode extension, metastasis to bone marrow and in infants. – Treatment : Moderate intensity chemotherapy, debulking surgery – Survival rate: 90-95% 3. High risk – Metastasis to bone marrow and bone. Dose intensive chemotherapy, surgery and external beam radiotherapy to primary tumor and resistant metastatic sites. Survival rate: 40-50% 4. Tumor stage 4S Metastasis to liver and skin Treatment : Supportive care because many regress spontaneously survival rate (>90%). •
Current induction chemotherapy for high risk neuroblastoma includes cyclophosphamide, topotecan, doxorubicin, vincristine, cisplatin and etoposide.
6. Ans is d. Peritoneal drainage (Ref: Meharban Singh 7th, Pg. 405-407, Nelson 18th, Pg. 756) The definitive treatment of choice for perforation in cases of NEC is surgery (immediate laparotomy with resection of the involved segment and reanastomosis). However, in premature infants with very low birth weight (<1000gm), who are extremely unstable for surgery (preterm baby on ventilator), peritoneal drainage under local anaesthesia has been described as a safe immediate management option.
Necrotizing Enterocolitis Vanous predisposing factors are: • Prematurity (especially <34 wks) • Perinatal hypoxia • Active resuscitation • RDS/ apnea • Assisted ventilation • Acidosis/ Hypoxia/ Shock • Umbilical artery catheterization • Use of H2 blockers
Answers •
85
Early/large volume nasogastric feedings – The protective role of human milk for prevention of NEC is well accepted.
Modified Bells Staging for NEC Stage
Signs
Radiology
Treatment
IA (Suspected NEC)
Lethargy apnea, bradycardia, elevated pre-gavage residuals, emesis, guaic positive stool
Normal or intestinal dilation, mild illeus
NPO, Antibiotics
IB (Suspected NEC)
Same as above + bright red blood per rectum Same as above + absent bowel sounds
Same as above
Same as above
Same as above + pneumatosis intestinalis
Same as above
IIA (Definite NEC)
IIB (Definite NEC)
Same as above + mild thrombocytopenia, acidosis + abdominal cellulites
Same as IIA + portal vein gas
Same + Sodabicarbonate for acidosis
IIIA (Advanced NEC)
Same as IIB + DIC, neutropenia + signs of peritonitis
Same as IIB + definite ascitis
Same as above + assisted ventilation paracentesis
IIIB (Advanced NEC)
Same as IIIA
Same as IIIA + pneumo peritoneum
Same as IIIA + Surgical intervention (Laparotomy)
86 •
Pre-NEET Pediatrics In ELBW (<1000 gm) or unstable babies, peritoneal drainage is established under local anaesthesia and laparotomy is delayed for stage IIIB.
7. Ans is c. Hospitalization and Nebulization with racemic epinephrine diluted with water. (Ref: Nelson 18th, Pg. 1765, O.P. Ghai 7th, Pg. 351) This is a case of infectious croup (Acute laryngotracheobronchitis) with moderate severity and requires hospitalization and nebulisation with racemic epinephrine. Laryngo Tracheobronchitis, usually caused by parainfluenza type 1. Bacterial etiology is unusual.
Clinical Features Usually there is mild cold for a few days before the child develops a brassy cough and inspiratory stridor. The condition may worsen to severe respiratory distress and cyanosis, Croup is a clinical diagnosis and does not require a radiograph of the neck. However, characteristic "Steeple sign" (Subglottic narrowing) may be seen on PA view of neck.
Severity of Acute LTB Mild
Moderate
Severe
General appearance
Happy
Irritable
Agitated or altered sensorium
Stridor
Stridor on coughing or no stridor at rest
Stridor at rest, gets worse on agitation
Stridor at rest and worsens on agitation
Respiratory distress
No distress
Tacypnea, chest Marked tacypnea with retractions chest retractions
Oxygen saturation
>92% in room air
>92% in room air
<92% in room air, cyanosis
Management Mild cases can be managed on ambulatory basis with symptomatic treatment for fever Antibiotics have no role. Moderately severe patient may need hospitalization and treatment with racemic epinephrine diluted with water.
Answers
87
A single intramuscular dose of dexamethasone (0.3 - 0.6 mg/kg) reduces overall severity during first 24 hrs. More recently inhalation of budesonide (1mg BD) x 2 days has shown good results. Severe croup may need hospitalization with oxygen inhalation, steroids. Worsening distress may need short term ventilation.
Differential Diagnosis 1. Epiglottitis: H. Influenza type B is the most frequent causative agent. a. Clinical features: High fever with difficulty in swallowing. He often sits up leaning forwards and saliva dribbling from his chin. b. Diagnosis: Direct laryngoscopy where epiglottis appears angry red. c. Management : Hospitalization, Humidified oxygen, fluids, antibiotics (ampicillin/chloramphenicol/ceftriaxone) ± Ventilation. 2. Spasmodic croup: Occurs in children between 1 and 3 yrs. Usually no prodromal symptoms, sudden onset brassy cough and noisy breathing, usually in early hours of morning. Pathogenesis is unknown. – Treatment : Racemic epinephrine and steroids are helpful. 8. Ans is a. EDTA (Ref: Nelson 19th P. 2450) The child in question is presenting with signs and symptoms of plumbism as suggested by blue line on gums (Bertonian line), gastrointestinal manifestations like constipation and symptoms of lead encephalopathy (seizures, drowsiness). As the patient in question in presenting with encephalopathy, he is likely to have blood levels >70 µg/dL and hence, EDTA is the single most important agent for treatment.
Lead Poisoning Lead is a heavy metal that is purely a toxicant in humans. Lead poisoning may occur in utero, because it readily crosses the placenta from maternal blood. The spectrum of toxicity is similar to that experienced by children after birth. Major sources of exposure include lead based paints, batteries; cable sheathing, cosmetic, plastic, toys, mineral supplements.
88
Pre-NEET Pediatrics
Metabolism • • • •
After absorption, lead is disseminated throughout the body. Mostly it accumulates in bone and resides for years. About 97% in blood is bound on or in Red blood cells. The heme pathway is susceptible to lead inhibitory effects. Neurotransmitter release is adversely affected by lead.
Clinical Symptoms 1. 2.
3. 4.
GIT symptoms: anorexia, abdominal pain, vomiting, constipation CNS symptoms: related to cerebral edema and increased intracranial pressure. – Headache, Lethargy, Seizures, Papilledema, Coma. Renal tubular dysfunction at high levels (>100 µg/dL) – Reversible fanconi syndrome. Hemolytic anemia
Diagnosis and Management Blood lead levels (BLL) remains the gold standard for evaluation. Lead can be measured in urine and hair but has problems of contamination and interpretability.
Drug Treatment A child with a venous BLL 45 µg/dL or higher should be treated. Children with BLL of 44-70 µg/dL may be treated with a single drug, preferably DMSA. Those with BLL of 70 µg/dL or greater require 2 drug treatment. 1. EDTA + DMSA / BAL for those without encephalopathy 2. EDTA and BAL for those with encephalopathy 9. Ans. is a. No IgG deposits or C3 deposits on renal biopsy (Ref: Nelson 19th, Pg. 1804 Paediatric Nephrology 5th, Pg. 195) This girl is having generalized edema, grade 3 proteinuria, Fatty + hyaline casts. This is a case of minimal change Nephrotic syndrome. IgA nephropathy and Alport's syndrome present with acute nephritic syndrome rather than nephrotic syndrome. Nephritic syndrome is characterized by massive proteinuria (3+ 4+ protein), Hypoalbuminemia (<2.5 gm/dL) Hypercholestrolemia, edema.
Answers
89
Approximately 90% children with Nephrotic syndrome are idiopathic that is nephrotic syndrome. without evidence of a specific systemic cause. It includes: Minimal change disease (about 85% of total cases) •
Mesangial proliferation
•
Focal segmental glomerulo sclerosis
•
Membranous nephropathy
•
Membranoproliferative glomerulonephritis
Differential Diagnosis •
Protein losing enteropathy
•
Hepatic failure
•
Heart failure
• •
Protein malnutrition Chronic glomenlonephritis
Treatment Children with onset of uncomplicated nephritic syndrome between 1-8 yr of age are likely to have steroid responsive MCNS (Minimal change NS)and steroids therapy may be initiated without a diagnostic renal biopsy. Children with features that make MCNS less likely (Gross hematuria, hypertension, renal insufficiency, hypo-complementenia, age <1 yr or >8yr) should be considered for renal biopsy before treatment. About 90% children with MCNS respond to initial steroid therapy. The initial episode is treated with prednisolone, 2 mg/kg/d for 6 wks. Thereafter, the dose of prednisolone is reduced to 1.5 mg/kg given on alternate days as a single morning dose for 6 more weeks. Further prolongation of alternate day prednisolone therapy for 6 months may be beneficial in reducing the risk of subsequent relapses. 10. Ans. is b. Short course of steroids (Ref: Paediatric Nephrology 5th, Pg. 155-157) This is a classical case presentation of Henoch - Schonlein purpura with skin, joint, GIT and renal manifestation. Use of oral steroids for 23 wks is recommended. Skin biopsy is not mandatory for diagnosis. Henoch: Schonlein purpura
90
Pre-NEET Pediatrics
(Anaphylactoid purpura) It is the most common systemic small vessel vasculitis in children. It occurs frequently between 3 and 10 yrs.
Diagnosis Presence of purpura (commonly palpable) or petechiae with lower limb predominance and one of the four following criteria: 1. Abdominal pain 2. Arthritis/ arthralgia 3. Renal: involvement (proteinuria or hematuria or presence of RBC casts) 4. Histopathology showing Leukocytoclastic vasculitis with predominant IgA deposits in skin or proliferative glomerulonephritis with predominant IgA deposits in mesangium on kidney biopsy.
Treatment 1. Joint symptoms only: Rest, analgesia 2. GIT manifestations, orchites, marked subcutaneous edema ' steroids (prednisolone x 2-3 wks) 3. Severe Nephritis or nephritic syndrome, pulmonary hemorrhage 'steroids and cytotoxic drugs. 11. Ans. is b. Oral phosphate and Vit D supplements (Ref: Paediatric Nepthrology 5th, Pg. 324-335)
Approach to Refractory Rickets This case is a classical presentation of hypophosphatemic rickets (normal S. Calcium, low S. Phosphate, Normal S.PTH) and treatment of choice is phosphate and Vit D supplements. This is clearly a refractory rickets that has not responded to 2 doses of Vit D.
Remember • •
S. Phosphate high in chronic renal failure S. Parathyroid hormone normal in hypophosphatemic rickets.
Answers
91
Hyphosphosphatemic Rickets •
Most common form of refractory rickets, inherited as a. X-linked dominant : Most common Mutations in the PHEX gene (chromosome Xp22.1) This gene is a regulator of FGF - 23 production by osteocytes. b. Autosomal dominant c. Autosomal recessive d. Autosomal recessive with hypercalciuria
Remember In hypophosphatemic rickets, symptoms of hypocalcemia (tetany, muscle weakness) are absent. Dental abnormalities are common in hypophosphatemic x linked rickets.
92
Pre-NEET Pediatrics
Treatment 1. Phosphate supplements (Joulie solution: Sodium phosphate, phosphoric acid) 2. Vitamin D supplementation (except hypercalciuric variety)
Vit D – Dependent Rickets (VDDR) • Autosomal recessive, present between 3 - 6 months of age. 1. VDDR type I (Pseudo Vit D deficiency) – Due to deficiency of enzyme 1 hydroxylase – Clinical and biochemical features resemble nutritional rickets but are not corrected by Vit D supplementation. – Treatment : Calcium, phosphate supplements, calcitriol 2. VDDR type II – Due to end organ resistance to 1,25 (OH)2 D3 – High prevalence of alopecia, ectodermal defects. – Refractory to treatment - Require large doses of calcitriol, calcium and phosphate.
Renal Tubular Acidosis • •
Fanconi syndrome, distal RTA present with refractory rickets. Treatment : Bicarbonate and phosphate supplementation
Chronic Renal Failure Treatment: Restricting phosphate, calcium supplements, calcitriol. 12. Ans is d. Prophylactic antibiotics (Ref: Nelson 18th, Pg. 2228-2233)
Vesicoureteral Reflux Retrograde flow of urine from the bladder to the ureter and renal pelvis is called vesicuureteral reflux. Reflux is usually congenital and affects approximately 1% of children. Reflux predisposes to renal infection, reflux nephropathy (renal insufficiency).
Classification Based on appearance of urinary tract on a contrast voiding cystourethrogram (VCUG)
Answers 1. 2.
Grade I Grade II
93
: :
reflux into a non dilated ureter reflux into the upper collecting system without dilatation 3. Grade III : reflux into dilated ureter 4. Grade IV : reflux into a grossly dilated ureter. 5. Grade V : massive reflux with ureteral tortuosity, loss of papillary impression. Clinical manifestation: Reflux usually is discovered during evaluation for a UTI. Among children with reflux, 80% are female.
Treatment With bladder growth and maturation there is a tendency for reflux to resolve over time especially lower grades. Grade 5 reflux rarely resolves. Surgical correction of VUR also advised for 1. Multiple recurrences of UTI while on prophylaxis 2. Non compliance to medical management 3. Parental preference for surgery 4. Appearance of new renal scars during medical therapy.
American Urological Association Recommendations for VUR. Grade
Age (yr)
Scarring
Initial
Treatment
I - II
Any
+/-
Antibiotic
Prophylaxis
III - IV
0-5
+/-
Antibiotic
Prophylaxis
III - IV
6 - 10
+/-
Unilateral
Antibiotic
prophylaxis Bilateral
Surgery
V
<1
+/-
Antibiotic
Prophylaxis
V
1- 5
(- )
Unilateral
Antibiotics prophylaxis
Bilateral V
>1 yr
(+)
Surgery
13. Ans is c. Bartter syndrome (Ref: Paediatric Nephrology 5th, Pg. 318)
Surgery
94
Pre-NEET Pediatrics
The boy in question has • Hypokalemia – • Hyponatremia – • Alkalosis – • Hypochloremia –
S.K+ 3 meq/L S.Na+ 125 meq/L PH – 7.46 S.CI-88 meq/L
Medullary Nephrocalcinosis – USG KUB This is a case of Bartter syndrome. Renal tubular acidosis can be easily ruled out as there is no acidosis but alkalosis. In diabetes Insipidus, there is deficiency of vasopressin, [(central) or tubular unresponsiveness to ADH (nephrogenic)]. Hence, there is loss of free water that leads to hypernatremia dehydration with corresponding increase in serum chloride. But in question there is hyponatremia and hypochloremia. In pseudohypo aldosteronism, S.aldosterone is normal or high but due to tubular unresponsiveness, clinical features of aldosterone deficiency ie. Hyperkalemia, hyponatremia, acidosis will be seen which is not the case in this situation.
BARTTER SYNDROME It is an autosomal recessive disorder, characterized by hypokalemia, metabolic alkalosis, hyperreninemia and hyperaldosteronism, normal blood pressure and urinary wasting of K+, Na+ and Cl-. Clinical features include failure to thrive, polyuria and polydipsia with recurrent episodes of dehydration, muscle weakness and cramps in older children. Molecular defect is in the thick ascending limb of Henle. Tubular losses of K+, Na+, Cl- and water lead to volume contraction that in turn causes secondary hyperaldosteronism. Bartter syndrome should be differentiated from non renal causes of chloride loss such as vomiting, cystic fibrosis. In these conditions the urinary chloride concentration is in variably below 10meq/L. Therapy: Potassium supplementation and Indomethacin (cyclo oxy genase inhibitor decrease elevated prostaglandins that are responsible for polyuria).
GITELMAN SYNDROME Hypokalemia, metabolic alkalosis and hypomagnesemia are chief abnormalities. The combination of Hypocalciuria with renal magnesium wasting distinguishes Gitelman from Bartter syndrome
Answers
95
Clinical Features Generally milder symptoms. Appear in older children. There are episodes of muscular weakness, cramps, fatigue, vomiting, tetany, polyuria and growth retardation are mild. Molecular defect is in the apical thiazide sensitive, sodium chloride co-transporter (NCCT) in distal tubule. Features of Gitelman syndrome mimic Chronic thiazide administration. Treatment is with supplementation of potassium and magnesium chloride. 14. Ans is b. Long term phenytoin is required (Ref: Nelson 19th, Pg. 2017-18) This is a case of recurrent febrile seizure which can be treated with intermittent clobazam and paracetamol. The risk of epilepsy is 4%. Considering this to be a low intermediate risk, EEG and neuroimaging may be considered. But certainly long term phenytoin therapy is not required unless EEG/ Neuroimaging turn out to be abnormal.
Febrile Seizures Febrile Seizures are seizures that occur between the age of 6 months - 5 yrs with a temperature of 38 0C or higher, that are not the result of CNS infection or any metabolic imbalance and that occur in the absence of a history of prior afebrile seizures. A simple febrile seizure - generalized, usually tonic clonic associated with fever, lasting for a maximum of 15 min and not recurrent within a 24 hr period. A complex febrile seizure is more prolonged >15 min, is focal, and/ or recurs within 24 hours.
Risk Factors for Recurrence of Febrile Seizures Major
Minor
Age < 1yr
Family history of febrile seizures
Duration of fever <24 hr
Family history of Epilepsy
Fever 38-390C Complex febrile seizure Male gender Lower S. Sodium
96
Pre-NEET Pediatrics
Risk Factors for Occurrence of Subsequent Epilepsy Risk factor
Risk for Epilepsy
• • • • • •
1% 33% 29% 18% 11% 4%
Simple febrile seizure Neuro developmental abnormalities Focal complex partial seizure Family history of epilepsy Fever< 1hr before febrile seizure Recurrent febrile seizure
Investigations Lumbar puncture is recommended in children <1yr of age after their first febrile seizure or if clinical signs and symptoms suggest meningitis
EEG/ Neuro Imaging Should be done in selected cases with a high/intermediate risk of epilepsy.
Treatment • • •
•
Rectal Diazepam/ Midazolam/ Lorazepam given at time of Seizure. Febrile status epilepticus - I/V phenobarbitone/ phenytoin/ valproate. Intermittent oral Diazepam/ Clobazam/ Clonazepam can be given along with anti pyretics during febrile illness to reduce the risk of seizure. Chronic antiepileptic therapy - may be considered for children with a high risk for later Epilepsy.
15. Ans is d. EEG in this condition shows a 4-6/ sec irregular spike and wave pattern, which is enhanced by photic stimulation. (Ref: Nelson 18th, Pg. 2463) This is a classical case presentation of juvenile myoclonic epilepsy (JANZ syndrome). It begins usually between ages of 12-16 yrs. Patients note frequent myoclonic jerks on awakening. A few years later, early morning GTCS develop in association with myoclonus. EEG shows a 4-6/sec irregular spike and wave pattern, which is enhanced by photic stimulation. Drug of choice is Valproate and not carbemazepine. This is required lifelong. Discontinuation of drug causes a high rate of recurrence of seizures. Other types of Myoclonic Epilepsies are: 1. Benign myoclonus of infancy: EEG is normal, No anticonvulsant are required.
Answers
97
2.
Typical myoclonic epilepsy of early childhood. a. Mean age of onset 2yrs b. At least 1/3 of children have a positive Family history of epilepsy c. Premorbid development is normal d. EEG shows fast spike wave complex 2.5 Hz and a normal back ground rhythm. 3. Complex Myoclonic Epilepsies: a. A history of hypoxic ischaemic encephalopathy in the perinatal period and abnormal neurological examination is a common finding. b. Focal or GTCS beginning in 1st yr of life antedate the onset of myoclonic epilepsy. c. It has a poor prognosis • Lennox Gastaut syndrome: Characterized by intractable seizures of various types, a slow spike wave EEG and mental retardation. • Landau Kleffner Syndrome: Characterized by receptive aphasia, seizures and behavioural problems. Valproic acid is the drug of choice. 16. Ans is b. Tuberous sclerosis (Ref: Nelson 18th, Pg. 2485, O.P. Ghai 7th, Pg. 564) There are 5 Major Neurocutaneous Syndromes i. Neurofibromatosis ii. Tuberous sclerosis iii. Struge Weber syndrome iv. Von Hippel Landau disease v. Ataxia telengiectasia
Neurofibromatosis Inheritance is autosomal dominant There are 2 types 1. Type I (Von Recklinghausen disease/ Peripheral NF1) 2. Type II (Central NF) – NF1: Deletion of NF gene on chromosome 17 – NF2: Gene is probably located on Chr. 22 – NF1: 2 or more of the following are present: 1. 6 or more Cafe-au-lait spots, each over 5 mm in diameter before puberty or over 15 mm diameter in older persons. 2. 2 or more neurofibromas or one plexiform neuroma 3. Axillary/ Inguinal freckling
98
Pre-NEET Pediatrics
4. Optic glioma 5. 2 or more Lisch nodules, dysplasia of sphenoid bone 6. A first degree relative with NF1 NF 2 - Presence of Bilateral auditory neuroma, unilateral auditory neuroma along with a first degree relative with meningioma, schwanomas or juvenile posterior subcapsular lenticular opacity.
Tuberous Sclerosis • • •
Autosomal dominant inheritance Cardinal features: Skin lesion, Convulsions and mental retardation Skin lesions: Hypopigmented ash leaf shaped macules, adenoma sebacum (angiofibromas) shagreen patches, subungal fibroma In infancy, myoclonic jerks often occur (West syndrome) - Drug of choice Vigabatrine
Sturge - Weber - Syndrome Characterized by facial nevus flammeus (usually in the distribution of first branch of trigeminal nerve), contralateral focal seizures, calcification of cortex (tram track calcification), glaucoma on the same side.
Von Hippel Landau Disease There are retinal and cerebellar hemangioblastomas besides spinal cord angiomas and cystic tumors of pancreas, Kidneys and epididymis.
Ataxia - Telengiectasia • •
An autosomal recessive inherited disease (mapped to Chr. 11q) Usually manifests with progressive cerebellar ataxia, Oculocutaneous telengiectasia, Choreoathetosis, pulmonary and sinus infections, immune deficiency and lymphorecticular malignancies. • feto protein is almost always elevated. Neuro-imaging reveals cerebellar atrophy.
Treatment is Symptomatic 17. Ans is d. Medullobastoma (Ref: Nelson 18th, Pg. 2452, 2427) Options a,b,c are congenital conditions whose presentations vary as follows:
Answers
99
1. Chiari Malformation •
•
Type I: – Typi ypical cally ly produ produces ces sym symptom ptomss durin during g adole adolesce scence nce /ad /adult ult life life.. Patient complains of recurrent headache, urinary frequency and progressive lower limb spasticity. spasticity. – Th The e deform deformity ity cons consis ists ts of disp displa lacem cemen entt of the cer cerebe ebella llarr tonsi tonsils ls into the cervical canal. It is usually not associated with hydrocephalus. Type II: – Ch Chara aracte cteriz rized ed by pr progr ogress essiv ive e hydr h ydroce ocepha phalus lus wit with h a myelomeningocele. – Usu Usuall ally y prese presents nts in child childhoo hood d with with gait gait abno abnormal rmality ity,, spast spastici icity ty and incoordination. The deformity consists of elongation of 4th ventricle with displacement of inferior vermis, pons and medulla into cervical canal.
2. Dandy Walker Malformation • •
Consis Cons ists ts of of a cyst cystic ic exp expan ansi sion on of the the 4th 4th ven ventri tricle cle in in the the poste posteri rior or fossa and midline cerebellar hypoplasia Appr Ap prox oxim imat ately ely 90% 90% pat patie ients nts hav have e hydroc hydrocep epha halus lus.. Most Most childr children en have evidence of long tract signs, delayed motor and cognitive milestones, cerebellar ataxia.
3. Syringobulbia • • •
Syringomy Syring omyelia elia is a cyst cystic ic cavi cavity ty with within in the the spin spinal al cord cord tha thatt may/ may/ may not communicate with the CSF pathways. Syrin Sy ringob gobulb ulbia ia exis exists ts when when the cys cystic tic cav cavity ity ext extend endss into into the med medull ulla. a. Commun Com munica icatin ting g syri syringo ngomye myelia lia is freq frequent uently ly ass associa ociated ted wit with h Chia Chiari ri type I malformation.
Clinical Feature It may rarely produces symptoms during childhood due to its slow evolution. Asym As ymme metri tricc los losss of pa pain in an and d tem temper perat atur ure e se sensa nsatio tion n wi with th pr pres eser erva vati tion on of light touch can occur (due to disruption of lateral spinothalamic tracts) Later, upper motor signs develop as cavity impinges on the corticospinal tract.
100
Pre-NEET Pediatrics
4. Medulloblastoma •
CNS tum tumors ors ar are e the the secon second d most most comm common on mali maligna gnancy ncy in chil childho dhood od after leukemias. – <1 yr yr:: Sup Supra rate tent ntor oria iall tumo tumors rs pr pred edom omin inat ate e – 11-10 10 yr yr:: Infr Infrat aten ento tori rial al tum tumor orss pred predom omin inat ate e – >1 >10 0 yrs: yrs: Supr Suprate atento ntoria riall tumors tumors aga again in pred predomi ominat nate e with with diffu diffuse se astrocytomas most common. Medulloblastoma is a cerebellar tumor which occurs predominantly in males and at a median age of 5-7 yr of age.
Clinical Features 1. 2.
Increased Increase d ICP ICP (ie. (ie. Heada Headache, che, Nau Nausea, sea, Vomit omiting ing,, Hyperte Hypertensio nsion) n) Cerebe Cer ebella llarr dysfun dysfuncti ction on (atax (ataxia ia,, poor bala balance nce,, dysmetr dysmetria ia)) – Me Medul dullob lobla lasto stoma ma is the chi childh ldhood ood bra brain in tum tumor or tha thatt most most commonly metastasizes extraneuronally extraneuronall y.
Medulloblastoma is sensitive to both chemotherapy and radiation theray with surgery as the starting point of treatment.
Other CNS Tumors a.
Astrocytoma Astrocyt oma acc accoun ountt for for majo majorit rity y (40% (40%)) of CNS tum tumors ors.. – Juv Juveni enile le pilo pilocyt cytic ic astr astrocy ocytom toma a (JP (JPA) is is the the most most comm common on astrocytoma and with a good prognosis. Craniopharyngioma:: occur in the suprasellar region b. Craniopharyngioma – Clinical feature: Panhypopituitarism, uitarism, growth failure, visual loss. feature: Panhypopit Surgery is the primary treatment modality as they are minimally invasive. There is no role for chemotherapy in craniopharyngioma. 18. An Ans s is a. a. Give I/V bolus of normal saline (Ref: Nelson 19th, Pg. 213-215) This is a case of hypernatremic dehydration with shock and clinical signs of hypernatremia - Doughy skin irritability. Cause in this case may be improperly made ORS (more concentrat concentrated). ed). Ina child with hypernatremic dehydration, as in any child dehydration, the first priority is restoration of intravascular volume with isotonic fucid. Normal saline is preferred to Ringers solution because the lower sodium concentration in the latter can cause the S.sodium to decrease d ecrease too rapidly.
Answers
101
Other Causes of Hypernatremia 1. Iatrogenic Iatrogenic:: Excess I/V hypertronic saline, I/V sodium bicarbonate 2. Hyperaldosteronism 3. Ce Cent ntra rall and Nep Nephr hrog ogen enic ic Diab Diabete etess insi insipi pidu duss 4. GIT losses: losses: diarrhea, Emesis 5. R CRF, polyuric poly uric phase pha se of ATN, ATN, Osmotic Osmo tic diuretics, diu retics, Renal enal losses losses:: CRF, Diabetes mellitus.
Clinical Features • • • •
Doughy abdomen CNS feat featur ure: e: irri irritabi tability lity,, lethar lethargy gy,, seizu seizures res (due to brai brain n hemorrh hemorrhage) age).. Fever Thro Th romb mboti oticc comp complic licati ation onss (seco (seconda ndary ry to dehy dehydr drat ation ion an and d hypercoagulability with hypernatremia)
Treatment 1. 2.
3.
Restorati Restor ation on of Intr Intrava avascu scular lar vol volume ume:: Norma Normall salin saline e bolus. bolus. Calcul Cal culati ation on of defi deficit cit and rep replac laceme ement nt over over 2424-48 48 hrs Goal- decrease S. Sodium by <12 meq/L every 24 hr, a rate of 0.5 meq/L/hr Peri eritone toneal al dial dialysi ysis: s: Acut Acute e seve severe re hyp hypernat ernatrremi emia a
X-linked dominant 19. An Ans s is d. d. X-linked (Ref: Nelson 19th, Pg. 388) It is an X linked dominant pattern of inheritance The feat features ures whic which h sugges suggestt the X-li X-linked nked domi dominant nant patte pattern rn are: • A sing single le abnor abnorma mall X Chrom Chromos osom ome e is suff suffici icien entt to expr expres esss the dis disea ease. se. • Al Alll of the the fem femal ale e offs offspr prin ings gs of of a dise diseas ased ed mal male e XY wil willl recei receive ve the the abnormal X chromosome and express the disease, whereas none of the male offspring to the diseased father will have the disease (as sons don't receive X chromosome from father). f ather). A diseased mother can transmit the abnormal X chromosome to both daughter and sons equally.
102
Pre-NEET Pediatrics
X-lined recessive inheritance
•
Males Ma les ar are e more more com commo monl nly y and and seve severe rely ly aff affect ected ed than than fem femal ales es..
•
Fem emal ale e carri carrier erss ar are gen gener eral ally ly una unaff ffec ecte ted. d.
•
Fema emales les carr carrier ierss have have a 25% 25% ris risk k of hav having ing an affe affected cted son son,, 25% 25% risk for a carrier daughter and 50% chance of having an unaffected child.
•
Affe Af fect cted ed ma male less wil willl hav have e onl only y car carri rier er da daug ught hter ers. s.
•
Affected Affect ed ma males les hav have e no no chanc chance e of of havi having ng an aff affect ected ed son bec becaus ause e they will pass their Y chromosome to their sons. Male to male transmission excludes X linkage, but is seen with autosomal dominant and Y-linked inheritance. in heritance.
20. An Ans s is d. d. Do not give OPV and BCG at birth. (Ref: O.P. Ghai 7th, Pg. 207, Nelson 19th, Pg. 1158)
HIV in Newborn HIV-1 and HiV-2 are members of the Retroviridae family. HIV-2 is a rare cause of infection in children. child ren. It is most prevalent in Western and southern Africa. Transmission of HIV1 occurs via sexual contact, parenteral exposure Transmission to blood, or vertical transmission from mother to child. Vertical transmission can occur intrauterine (before birth), intrapartum during birth), or through breast feeding (after delivery)
Answers
103
30-40% of infected newborns are infected in utero. The highest percentage of HIV infected children acquire the virus intrapartum. The risk of transmission through breast feeding in chronically infected women is approx 9-16% Elective Cesarean delivery decrease transmission by 87% if used in conjunction with Ziduvudine therapy in mother and infant. Transfusion of infected blood/blood products has accounted for 36% of all pediatric AIDS cases. In the pediatric population, sexual transmission is infrequent.
Diagnosis All infants born to HIV infected mother test antibody positive at birth because of passive transfer of maternal HIV antibody across the placenta. Therefore HIV EIISA (based on antibody) is done at 18 months of age (By this time, almost all infants loose maternal antibody). Specific viral diagnostic assays, such as HIV DNA or RNA PCR, HIV Culture or HIV P24 antigen are essential for diagnosis of infant HIV infection. HIV DNA PCR is method for diagnosis. 2 positive HIV DNA PCR (1st performed at 6-8 wks of age) confirm HIV infection. HIV P24 antigen assay is the less sensitive, HIV culture is technically complex, expensive and time consuming (2-4 wks compared to 2-3 days with PCR) and with HIV RNA assays, data results are limited.
Prevention of Mother to Child transmission (MTCT) Recommended Regime for pregnant (Not eligible for ART) Antepartum: Zidovudine starting at 28 wks of pregnancy Intrapartum: A combination of single dose Nevirapine, Zidovudine and Lamivudine Postpartum: A combination of Zidovudine and Lamivudine for 7 days. Recommended treatment for pregnant women in labor and who have not received ART is: Intrapartum: A combination of Nevirapine, Zidovudiine, Lamivudine. Postpartum: Combination of Zidovudine, Lamivudine x 7 wks.
104
Pre-NEET Pediatrics
Omission of Nevirapine for the mother may be considered for women who receive at least 4 wks of Zidovudine before delivery. Recommended regimen for Infants born to HIV positive mother • Nevirapine and Zidovudiine for 1 wk. • When delivery occurs within 2 hrs of women taking Nevirapine, the infant should receive Nevirapine immediately and Zidovudine for four wks. If mother receives less than 4 wks of antenatal ART, then 4 wks of Zidovudine is recommended.
Cotrimoxazole Prophylaxis 1.
All HIV exposed infants starting at 4-6 wks of age and continued till HIV infection can be excluded.
2.
All HIV infected infants <1yr should receive prophylaxis regardless of symptoms or CD4 percentage.
3.
After 1 yr of age, prophylaxis is recommended for symptomatic children or children with CD4 <25%.
Immunization: Symptomatic HIV infected children should not be given OPV and BCG. Breast feeding : According to WHO 2001, when replacement feeding is available, avoidance of breast feeding by HIV infected mothers is recommended. Otherwise, exclusive breast feeding is recommended keeping in mind that mixed feeding during this period carries a 70% greater risk of transmission. 21. Ans is b. Statement A is true while statement B is false. (Ref: O.P. Ghai 7th, P. 573) Statement 'A' is a classical example of spinal muscular atrophy (SMA) while statement 'B' is EMG finding of myasthenia gravis. 1. 2.
Infant has areflexia (absent reflexes) but Deep tendon reflexes are preserved in myasthenia gravis.
Myasthenia (congenital) does not present in the intrauterine life (so does not cause polyhydramnios) Hence, statement A is true but B is false.
Answers
105
Floppy Infant He/she is an infant with marked hypotonia of the muscles and variable associated weakness. Common causes are: 1. CNS (Central nervous system) –
2.
Perinatal asphyxia, neonatal encephalopathy, cerebral palsy (atonic type), Down syndrome, Inborn errors of metabolism (amino aciduria, mucopolysaccharidosis, cerebral lipidosis)
Spinal cord: Anterior horn cell disease: SMA, polio
3. Peripheral Nerves: Familial dysautonomia, hereditary motor sensory neuropathy 4. Myoneural junction: Neonatal myasthenia gravis, infantile botulism 5. Muscles: Muscualr dystrophies, congenital myopathies, polymyositis, glycogen storage disease 6. Miscellaneous : PEM, hypothyroidism, rickets, Prader willi syndrome, Ehler Danbos syndrome.
Clinical Features Delayed motor milestones frequent, respiratory infections. Antenatal H/O polyhydramnios, decreased fetal movements.
Clinical Examination Frog like postures, diminished resistance to passive movements, excessive joint mobility.
106
t n e m e v l o v n I f o e t i S e h t o t g n i d r o c c A t n a f n I y p p o l F f o s e r u t a e F g n i t a i t n e r e f f i D
Pre-NEET Pediatrics
y s p o i B e l c s u M
G M E
R T D s l l s a t a e m s n i i x d k a o r s e P V w
s g e L s m r A s f s o e t n n k e a t x e E w t n e m f e v o l o e t i v n S i
c i t s i r e t c a r a h C
l a m r o N
c i n e g y h o r p u o r e t N a
n o i t a v r n r e e n t t e a D p
l a m r o N
l a m r o N
s ' n n o o , i i t l s t a a a l v i u t r c e n i e c n t e o s a D p f
n o s l i a t l a i a m r ± v r t o S e n e n n t b N e o A C d p
l a n t o c n n i s o s l e e e i t s n v a a i m n i a o t t h l i i e u t r o t r t p n e y t c p e m o a l p i h r e s o u o t D e r e r s S d p p
t n e s b A
/ d e s a t e r n c e s e b D a
d / l e a s a m r r e o c n N i
l a m r o N
d e s a e r c e D
= r o >
= r o >
<
=
>
+
+ + +
+ + +
+ +
+ + +
+
+ + +
+ +
+ +
+ +
+ + +
e l b a i r a V
-
l a r t n e C
±
l r l e o i r c e n t r n o A h
-
l a r e h e p v i r r e e P n
r a l - u n o o r c i t s c u e u n u N m j
e l c s u M
s e i d u t s y h n o p i t a r c g u o d y n m o c o r e t c v e r l e E N - G S M C E N
Answers
107
Spinal Muscular Atrophy SMA is an autosomal recessive disorder characterized by muscle weakness due to degeneration of motor neurons in the spinal cord (anterior horn cells) and brainstem nuclei. It can be inherited as autosomal dominant, X-recessive or sporadic.
Types 1.
SMA type I : Werdnig Hoffmann disease. A classical patient presents within first 6 months and is never able to sit. More than 90% die by 10 yr of age. 2. Type II : Manifest by first yr of age, unaided sitting is possible but walking is not achieved. More than 90% survive beyond 10 yrs. 3. Type III : Kugelberg-Welander disease, can achieve walking without aids. 4. Type IV : Presents after 30 yrs Severity is variable Lifespan is unaffected The heart is not involved in SMA. Intelligence is normal. 22. Ans is b. Emergency atrial septostomy (Ref: Avery 8th, Pg 841, Cloherty 5th, Pg. 428) This is a classical case presentation of hypoplastic left heart syndrome (ductal dependent lesion) which fails to respond to medical therapy. In these neonates, in order to benefit from a PGE1 infusion, there must be a patent foramen ovale to allow effective systemic blood flow (pulmonary venous return) to cross the atrial septum and enter the systemic vascular bed through the ductus. In these neonates, emergent balloon dilation of atrial septum may be necessary. After a period of stabilization, corrective surgery (Norwood procedure followed by a fontan operation later in childhood) is planned.
Ductus Arteriosus Dependent Lesions Ductus arteriosus is a ductal connection between aorta and pulmonary artery which plays an important role in the fetus shunting pulmonary blood flow to aorta. It is maintained patent by low oxygen and PGE1 during antenatal period. After birth, rising concentrations of oxygen and fall in PGE1 induce closure of ductus which is normally complete by 2-3 wks of age.
108
Pre-NEET Pediatrics
Closure of the Ductus Arteriosus is Particularly Deleterious in Patients with Ductal Dependent 1. 2. 3.
Systemic blood flow (SBF) Pulmonary blood flow (PBF) Parellel circulation
1. Congenital lesions with duct dependent systemic blood flow. i.
Critical aortic stenosis
ii. Coarctation of aorta iii. Interruption of aortic arch iv. Hypoplastic left heart syndrome (HLHS) Of the four, critical aortic stenosis manifests shortly after birth with signs of CHF, gallop rhythm, murmur and poor perfusion. In other three left sided lesions, most common presentation is shock (poor perfusion) in first 1-2 wks of life.
2. Lesion with Duct Dependent Pulmonary Blood Flow a.
Tricuspid atresia
b.
Ebstein anomaly
c.
Pulmonary atresia with intact ventricular septum ("Hypoplastic right heart syndrome")
d. Severe pulmonary stenosis
3. Parellel Circulation/ Transposition of Great Arteries.
Treatment Administration of PgE1 will open the ductus arteriosus and depending upon the lesion, increase pulmonary blood flow, systemic blood flow or intercirculatory mixing. Failure to respond or clinical deterioration after institution of PGE1 means 1. Initial diagnosis is incorrect
Answers 2. 3. 4.
109
Ductus is unresponsive to PGE1 (eg. Older infant) Total anomalous pulmonary venous return with obstruction. Lesion with obstruction of blood flow out of left atrium a. Hypoplastic left heart syndrome b. Variants of mitral atresia with a restrictive foramen ovale c. Transposition of great arteries with intact ventricular septum and restrictive foramen ovale.
These 3 conditions require an emergent atrial septostomy to save the neonate (as explained before). 23. Ans is c. Knee-chest position, oxygen and Inj. Morphine administration (Ref: Nelson 19th, Pg. 1573-1575) This is a classical case presentation of a cyanotic spell due to most probable Tetrology of fallot and most appropriate intervention would be knee chest position, Inj. Morphine and Oxygen administration. In the absence of definite history of similar spells in past and echo study, this condition needs to be differentiated from breath holding spells which also peak around similar age (1 ½ - 2 yrs of age). The presence of respiratory distress and systolic murmur with cyanosis preceded by point toward crying a cyanotic spell. A breath holding spell is of 2 types. They are: i.
Cyanotic a breath holding spell: a. Usually provoked by up sitting/ scolding an infant. b. Brief shrill cry followed by apnea and cyanosis that may be associated with generalised clonic jerks, opisthotonus c. Management is parental reassurance and not reinforce the child's behaviour after child's recovery from the spell.
ii.
Pallid spells - Much less common a. Typically initiated by a painful experience eg. Falling, striking head or sudden startle b. Child stops breathing, looses consciousness, becomes pale and may have a tonic seizure.
110
Pre-NEET Pediatrics
Treatment: Reassurance Atropine (by blocking the vagus nerve) may be tried in refractory cases.
Tetrology of Fallot (Must know) Pri mary defect is an anterior deviation of the infundibular septum (septum that separates aortic and pulmonary outflows) consequence of this deviation are 4 componnets: i. Obstruction to right ventricular outflow (pulmonary stenosis) ii. Malalignment type of Ventricular septal defect (VSD) iii. Dextroposition of aorta so that is overrides the ventricular septum iv. Right ventricular hypertrophy • Obstruction to pulmonary arterial blood flow is usually both infundibular (subpulmonic area) and the pulmonary value (Rare)
Clinical Manifestations 1. Acyanotic/pink tetralogy of fallot : when obstruction to right ventricular outflow is mild-moderate and a balanced shunt across the VSD, the patient is not cyanotic. 2. Ductal dependent pulmonary blood flow in infants. 3. Older children: presentation with cyanosis, clubbing and dyspnea on exertion.
Signs 1. 2.
3.
Prominent left anterior hemi thorax in older children (due to long standing right ventricular hypertrophy) A systolic thrill/ systolic murmur in left sternal 3rd - 4th parasternal space. It is caused by turbulence through right ventricular outflow tract. It loudness directly proportional to severity of pulmonary stenosis but it can become less prominent with severe obstruction and hypercyanotic spell. Single 2nd heart sound or soft pulmonary component.
Chest X-ray "Coeur in Sabot" (Boot shaped heart) due to cardiac apex elevation (due to right ventricle hypertrophy) pulmonary oligemia.
Treatment of Cyanotic Spell 1.
Placement of child in knee chest position (It increases systemic vascular resistance and decrease venous return. This decreases right to left shunt, and improves symptoms).
Answers
111
2. Oxygen administration 3. Morphine subcutaneous at dose not exceeding 0.2 mg/kg 4. Intravenous soda bicarbonate if metabolic acidosis present 5. Intravenous phenylephrine - increase systemic vascular resistance, decrease right ' left shunt and improves symptoms.
Surgical Management 1.
Palliative surgery - Blalock - Taussig shunt (systemic to pulmonary artery shunt) performed to augment pulmonary artery flow. – Indication: Infants with less severe cyanosis without cyanotic spells and with good growth. Modified Blalock Taussig Shunt between subclavian artery and pulmonary artery. Waterson shunt between ascending aorta to main pulmonary artery. Pott's Shunt: descending aorta to pulmonary artery. 2.
Corrective surgery a. Electively between 4-6 months of age in case of less severe cyanosis without spells b. Immediately in infants with severe cyanosis (marked right ventricular outflow obstruction).
24. Ans is d. Do urgent USG and prepare for urgent laparotomy (Ref: Nelson 19th, Pg. 1288-1289) This is a classical presentation of Intussusception and in view of X-ray features of peritoneal irritation (ascites with distended bowel loops), hydrostatic reduction should not be attempted. This is not a case of simple gastroenteritis because in enteritis, the pain is less severe, there is diarrhea which is not the case in this clinical problem. Similarly Vit K deficiency is less likely as bleeding per rectum is painless and there are no associated symptoms of excessive crying and vomiting in Vit K deficiency.
Intussusception It occurs when a portion of the alimentary tract is telescoped into an adjacent segment. The upper portion of bowel, the intussusceptions, invaginates into the lower, the intussuscipiens.
112
Pre-NEET Pediatrics
Q. It is the most common cause of intestinal obstruction between 3 month and 6 yr of age Q. the most common abdominal emergency in children <2 yr. Approximately 90% of cases are idiopathic. Swollen peyer patches, in response to GIT infection or introduction of new food proteins may lead to mucosal prolapse causing an intussusceptions. In 2-8% patients, recognizable lead points are found eg. Meckel diverticulum, polyp, neurofibroma, hemangioma, lymphoma Q. Intussusceptions are most often Ileocolic
Clinical Features Suddent onset in a previous well child of severe paroxysmal colicky pain or episodes of excessive crying. Child may initially be comfortable between paroxysms but progressively becomes weak and lethargic. Vomiting occurs in most cases stools of normal appearance with sometimes passage of blood. Eventually a shock like states with fever develop.
Classic Triad Pain, a palpable sausage shaped abdominal mass, and bloody or currant jelly stool is seen in <15% of patients.
Abdomen Palpation Usually (about 70% cases) reveals a slightly tender sausage shaped mass, presence of bloody mucus on rectal examination supports the diagnosis of Intussusception.
Diagnosis
Ultrasound 3. 4. 5. 6.
Sensitivity 98-100% Specificity 88% Tubular mass in longitudinal views A doughnut or target appearance in transverse images.
Management Immediate reduction of acute intussusceptions. In patients with prolonged intussusception and signs of shock, peritoneal irritation, intestinal
Answers
113
perforation or pneumatosis intestinalis, hydrostatic reduction should not be attempted. In such cases, urgent laparotomy should be planned. 25. Ans is a. 21 hydroxylase deficiency To understand the pathophysiology and effects of different congenital adrenal hyperplasia, one should know the synthetic pathway of steroid hormones.
Horizontal Enzymes 3 3- hydroxystroid dehydrogenase 2 21 - hydroxylase 1 11 - hydroxylase
Vertical Enzymes All starting with "17" 4 17 hydroxylase 5 17, 20 lyase 6 17 hydroxy steroid dehydrogenase *7 Cholestrol desmolase *8 Aldosterone synthase
114
Pre-NEET Pediatrics
CAH (Congenital Adrenal Hyperplasia) CAH is a family of autosomal recessive disorders of cortisol biosynthesis. Cortisol deficiency increases ACTH (corticotrophin) which leads to Adreno cortical hyperplasia.
1. 21 - Hydroxylase Deficiency More than 90% of CAH are caused by 21-hydroxylase deficiency. Enzyme '2' in diagram is required for synthesis of Aldosterone and cortisol. In its absence, progesterone and metabolites are diverted to production of androgens. a. Deficiency of mineralo corticoid ' salt losing - hypotension, hyponatremia, hyperkalemia, acidosis b. Excess androgens - Virilization of female. In males, there will be precocioius puberty due to androgen excess.
2. 11 - Hydroxylase Deficiency Enzyme '1' in diagram is required for cortisol synthesis In its absence a. Excess DOC (Deoxy corticosterone) ' mineralo corticoid ' Hypertension b. Excess androgens ' Virilization of female, precocious puberty in males
3. 3 Hydroxyl Steroid Dehydrogenase Deficiency Enzyme '3' in diagram Required for Aldosterone, cortisol and androstendione synthesis In its absence a. cortisol/ Aldosterone not synthesized that lead to salt wasting crisis b. DHEA Virilization of females (weak androgen)
4. 17 - Hydroxylase Deficiency Enzyme '4' in diagram Required for cortisol, Sex hormone synthesis in its absence, all pregnenolone is converted to mineralocorticoid. So there will be: a. Excess of mineralocorticoid ' Salt retention, hypertension b. No androgens ' Feminization of external male genitalis, females development will be normal.
Answers
115
Summary • • • • • •
In 21 OH, 3 OH dehydrogenase deficiency Salt wasting crisis + female virilization In 11 hydroxylase, deficiency and 17 hydroxylase deficiency Hypertension present 11 hydroxylase female virilization (female pseudo hermaphroditism) 17 hydroxylase male external genitalia feminization (male pseudo hema phroditism)
26. Ans is c. A correct B wrong (Ref: Nelson 18th, Pg. 609) Feature of conjugated hyperbilirubenemia on the 3rd day accompanied by sepsis and positive reducing substance in urine suggest diagnosis of galactosemia. The term Galactosemia generally designates the deficiency of galactose - I phosphate uridyl transferase deficiency. Without the transferase enzyme, the infant is unable to metabolize galactose - I phosphate, the accumulation of which results in injury to kidney, liver and brain.
Clinical Manifestations In newborn or young infants, jaundice, hepatomegally, vomiting, hypoglycaemia, cataracts, sepsis (esp. E coli) are main clinical features. Symptoms improve when milk is temporarily withdrawn and replaced with lactose free nutrition.
Diagnosis Positive reducing substances in urine (Galactosuria) Direct enzyme assay using erythrocytes
Treatment Elimination of galactose from the diet reverses the growth failure, Cataracts, renal and hepatic dysfunction.
Galactokinase Deficiency The deficient enzyme is galactokinase, which catalyzes the phosphorylation of galactose.
116
Pre-NEET Pediatrics
The principal metabolites accumulated are galactose and galactitol. Cataracts are usually the sole manifestation.
Uridine Diphosphate Galactose 4 Epimerase Deficiency The principal metabolitis accumulated are galactose 1 phosphate, UDP - galactose. There are two distinct forms of epimerase deficiency 1. Mild form: affected persons are asymptomatic enzyme deficiency is limited to Leukocytes, erythrocytes. No treatment is required. 2. Severe form: clinical feature resemble transferase deficiency, with additional symptoms of hypotonia, nerve deafness. Patients can't synthesize galactose from glucose, hence they are placed on a galactose restricted diet. 27. Ans is b. A and B both correct and B is not explanation of A (Ref: Nelson 18th, Pg. 1672, O.P. Ghai 7th, Pg. 294) This is a case of neonatal cholestasis possibly due to congenital Rubella. But as proportion of EHBA (extra hepatic biliary atresia) patients show TORCH antibodies, liver biopsy is considered as the most accurate (9095%) method to differentiate EHBA from neonatal hepatitis. Neonatal cholestasis is defined as prolonged elevation of serum. Conjugated bilirubin beyond teh 1st 14 days of life. Cholestatic jaundice is always pathological and needs evaluation. Broadly there are 4 pathophysiological patterns of neonatal cholestasis: i. Obstructive - EHBA ii. Neonatal hepatitis iii. Paucity of bile ducts iv. Special categories (metabolic causes, total parental nutrition, alagille syndrome, Byler's disease)
Clinical Features Infants show conjugated Hyperbilirubenemia, yellow urine, clay colored stools. Infants with EHBA are often full term and look apparently healthy except for jaundice. Those with neonatal hepatitis are small for date and show increased association with infections and genetic abnormalities.
Answers
117
Differentiation Between EHBA and Neonatal Hepatitis Children with EHBA should be identified before 2 months to prevent irreversible damage and for surgical intervention. The combination of a non-excreting HIDA scan along with GGTP levels more than 50 IU/L are highly suggestive of EHBA. Liver biopsy is considered as the most accurate (90 - 95%) diagnostic test to differentiate between the two. In biliary atresia, ductular proliferation and fibrosis are seen, whereas in neonatal hepatitis, there is alternation in lobular architecture, focal hepatocellular necrosis, bile ductules show little alteration. Giant cell transformation is found in either conditionand has no diagnostic specificity. Currently, peroperative Cholangiography remains the gold standard to differentiate between EHBA and neonatal hepatitis. Kasai's portoenterostomy is done for EHBA to re-establish the biliary flow into gut. Outcome is good if surgery is done before 2 moths of age. 28. Ans is a. Both active and passive immunization soon after birth (Ref: O.P. Ghai 7th, Pg. 193) These infants should receive both active and passive immunization at birth intramuscularly at different sites. Subsequent doses of active immunization is at 1-2 months and 6 months of age.
More About Hepatitis Hepatitis Virus HAV HBV HCV HDV HEV
Incubations period
15-45 days (mean 30 days) 30-180 days 15-160 days (mean 50 days) 30-180 days 14-60 days (mean 40 days)
Hepatitis B
Perinatal Transmission of HBV Most important risk factor that determines perinatal transmission ie. HBeAg. HBSAg. Carrier mother who are HBeAg positive almost invariably (>90%) transmit Hep B to their offspring, whereas carrier mothers with anti HBe rarely (10-15%) infect their offspring.
118
Pre-NEET Pediatrics
Most common time of perinatal transmission is at the time of delivery. Most of the infected neonates are asymptomatic carrier with increased chances of chronic hepatitis and hepato cellular carcinoma.
Common Seropatterns of Hep B. Infection HBSAg
Anti HBS
Anti HBe
HBe Ag
Anti HBe
Interpretation
+ -
-
IgM IgM
+ +/-
+/-
+
-
IgG
+
-
+
-
IgG
-
+
-
+ +
IgG -
-
+/-
Acute infection Acute infection, anti BHC window Chronic infection, high infectivity Chronic infection, low infectivity Recovery Immunization
29. Ans is d. Decreased hematocrit (Ref: Nelson 19th, Pg. 1147, O.P. Ghai 7th, Pg. 196)
Dengue Fever Dengue fever is caused by 4 antigenic types of dengue virus (member of family flaviviridae) spread through the bite of A.aegypti in Asia. It is characterized by biphasic fever, myalgia, arthralgia and rash.
Answers
119
Clinical Features Typically, after an incubation period of 4-6 days the patients may develop abrupt onset high grade fever, facial fushing and headache. There may be vomiting, pain abdomen associated with tender hepatomegally. Nearly all patient have some hemorrhagic phenomenon. After subsidence of fever, some children may show varying degrees of peripheral circulatory falure • The presence of thrombocytopenia with concurrent hemoconcentration and evidence of plasma leak differentiate DHF from dengue fever. • Hemo concentration - hematocrit elevated at least 20% above baseline • Thrombocytopenia - <1Lakh cells/ mm3 • Plasma leakage - Presence of pleural effusion on chest x-ray or hypoalbuminemia • DHF with hypotension is called dengue shock syndrome.
Diagnostic Tests for Dengue Fever 1. 2.
Within first 5 days of onset of fever - Viral culture, Dengue NS1 antigen After defervescence or in convalescent phase – Serology test – IgM - ELISA – IgG - Hemagglutination inhibition test
Treatment In hospital all children without hypotension should be given Ringer's lactate infusion at rate of 7 ml/kg over 1hr. This is tapered to 3 ml/kg/hr for 24-48 hrs if hematocrit decreases, and vital parameters improve. But if hemocrit is rising and vitals dont' show improvement, fluids infusion rate is increasd. (till 15 ml/kg/hr) In children with hypotension, Ringer lactate boluses are given. If hematocrit, and BP fall despite boluses, Blood is transfused. Majority of patients recover in 24-48 hrs without sequelae. 30. Ans is b. -Thalassemia (Ref: Nelson 18th, Pg. 2037) Out of the given 4 types of haemolytic anemia only -Thalassemia is able to give rise to such a severe presentation at birth. In all other conditions, the newborn is either normal or has mild jaundice.
120
Pre-NEET Pediatrics
Thalassemia Thalassemia are genetic disorders in globin chain production (Autosomal recessive). Adult haemoglobin is a tetramer, composed of 2 globin chains and 2 globin chains. • Thalassemia is caused by deficient synthesis of chain with normal chain synthesis. • Thalassemia is cause by deficient chain with normal chain synthesis • ° Thalassemia - complete absence of chain • + Thalassemia - Partial reduction chain • Most common type of genetic abnormality in Thalessemia is point mutation ie. Nonsense and in Thalessemia is deletion of globin genes. • In Thalassemia, excess of globin. Chains form Bart's haemoglobin (4) infetal life and chains for HbH ( 4) after birth. Barts haemoglobin in unable to release oxygen to tissues and hence, causes severe hypoxia and extravascular hemolysis and causes Nonimmune Hydrops in the fetus.
Thalassemia There are 3 forms of Thalassemia 1. Thalassemia major (Cooley's anemia) • Homozygous for Thalassemia genes. • Severe transfusion dependent – Manifesting at 6-9 months as haemoglobin synthesis switches from HbF to HbA. 2. Thalassemia Minor ( Thalassemia trait) • Individual has only one copy of Thalassemia genes (Heterozygous) • Mildest form - patient are usually asymptomatic 3. Thalassemia intermedia • Condition intermediate between major and minor • Individuals may rarely need occasional transfusion
Hematological Findings in Thalassemia
Peripheral Blood Smear • •
Anisocytosis (Variation in size of RBCs) Poikilocytosis (variation in shape of RBCs)
Answers
121
• Microcytic hypochromic RBCs • Target cells (Hemoglobin collects in centre of RBCs) • Basophilic stippling • Fragmented RBCs Others: MCV, MCH, MCHC S. Iron, S. Ferritin, Percentage Saturation, HbA2, HbF
Genetics HbF HbA2
T. Major
T. Intermedia
T. Minor (trait)
Homogygous 30-90% <3.5%
Double heterozygotes 20-100% <3.5%
Heterozygotes 0-5% 3.6-8%
AIIMS MAY 2012 1. Ans is b. Air bronchogram in chest x-ray (Ref: Nelson 19th ed. P. 581-590, O.P. Ghai 7th/ P. 143-144) Respiratory distress syndrome (Hyaline membrane disease)
Incidence Its incidence is inversely related to gestational age and birth weight. It occurs in 60-80% of infants <28 wk of gestational age, in 15-30% of those between 32 and 36 wk, and rarely in those >37 wk.
Etiology and Pathophysiology Surfactant deficiency (decreased production and secretion) is the primary cause of RDS. The major constituents of surfactant are dipalmitoyl phosphatidyl choline (lecithin), phosphatidyl glycerol, apoproteins (surfactant proteins SPA, SP-B, SP-C, SD-D), and cholesterol. These phospholipids are synthesized and stored in type II alveolar cells. They are released into alveoli, where they reduce surface tension and help prevent collapse of small air spaces at end expiration. Abnormalities in surfactant protein B and C genes are associated with severe and often lethal familial respiratory disease called neonatal alveolar proteinosis.
Diagnosis Age of onset: Presents usually within minutes of birth.
122
Pre-NEET Pediatrics
Chest X-ray Features of RDS Bilateral diffuse reticulo granular opacities in the pulmonary parenchyma. "Prominent air bronchograms" (aerated bronchioles superimposed on a background of collapsed alveoli)
Conditions Associated with air Bronchogram • • • • • • •
Pneumonia ARDS HMD (Hyaline membrane disease) Pulmonary consolidation Alveolar proteinosis Sarcoidosis Lymphoma
Prevention Administration of antenatal corticosteroids reduces the incidence of RDS, IVH, NEC, early onset sepsis and developmental delay.
Drug Regimens • • •
Inj. Betamethasone 12 mg/ 1/m every 24 hours 2 doses (preferred) Inj. Dexamethasone 6 mg 1/m every 12 hours, 4 doses. Maximum effect is seen between 24 hours - 7days
Treatment CPAP indication: If oxygen saturation cannot be kept >85% at inspired oxygen concentrations of 40-70% or greater.
Mechanical Ventilation Indication 1. 2.
Persistent apnea Respiratory failure a. Arterial blood PH <7.2 b. Arterial blood PCO2 60mm Hg c. Oxygen saturation <85% at oxygen concentrations of 40-70% and CPAP 5-10 mm H2O.
Surfactant Indications i. ii.
Moderate to severe RDS-Rescue treatment All neonates less than 29 weeks irrespective of presence or absence of RDS - Prophylactic treatment.
Answers
123
2. Ans is a. Shivering (Ref: O.P. Ghai 7th, Pg. 115-118, Meharban Singh 7th, Pg. 200-206)
Definitions Hypothermia: Axillary temperature of baby < 36.5 0C – Cold stress - 36.0 36.40C – Moderate hypothermia - 32-35.90C – Severe hypothermia - <320C • Hyperthermia: Axillary temperature of baby >37.50C. • Thermoneutral environment : The narrow range of environmental temperature at which baby can maintain normal baby temperature with minimal oxygen consumption. This is also called as the zone of thermal comfort. •
Response to Cold in Newborn Muscular activity (Shivering) is not a significant source of heat production.
124
Pre-NEET Pediatrics
Metabolic Thermogenesis Non-Shivering thermogenesis, as result of metabolism of brown fat, is the most important source of heat production in newborn. The fetal brown fat is laid down mostly during the third trimester of pregnancy and is located at the nape of the neck, interscapular region, axillae, groin, around the Kidneys and adrenals. This fat is metabolically very active in view of a large number of mitochondria and increased vascularity. Lipolysis of this fat release fatty acids which are locally consumed for generation of heat.
Reasons why Newborns have increased Susceptibility to Hypothermia •
Large surface area of babies especially head as compared to their weight. • Limited heat generating mechanisms. In LBW babies: Decreased subcutaneous and brown fat, more permeable skin, even larger surface area than term babies and early exhaustion of metabolic stores like glucose. Prevention of hypothermia by institution of Warm Chain (10 steps) 1. 2. 3. 4. 5. 6. 7. 8. 9. 10.
Warm delivery room Warm resuscitation Immediate drying Skin to skin contact called kangaroo mother care. Breast feeding Bathing postponed Appropriate clothing Mother and baby together Professional alertness Warm transportation.
Signs and Symptoms of Hypothermia • • • •
Acrocyanosis, Cool extremities, delayed capillary refill time (due to peripheral vaso constriction). Poor weight gain (chronic hypothermia) Cardio vascular manifestations: Bradycardia, hypotension, raised pulmonary pressure with resultant hypoxemia, tacypnea. CNS depression - Lethargy, poor reflexes, apnea, decreased oral acceptance.
Answers • •
125
Abdominal distension, Vomiting, feeding intolerance. Acidosis, Hypoglycemia, Azotemia, Oiguria, generalized bleeding.
Management
Cold Stress/ Moderate Hypothermia • • •
Skin to skin contact Regular temperature monitoring Supportive measures - Feeding, Monitor vitals.
Severe Hypothermia • •
Incubator/ Radiant warmer Regular temperature monitoring
Supportive measures: Oxygen, antibiotics (if sepsis suspected), saline bolus (if hypotension present), Prewarmed IV fluids, Inj. Vit K, Monitor Vitals. 3. Ans is c. All in children (Ref: O.P. Ghai 7th, Pg. 580-584, Nelson 19th, Pg. 1732-1737) The Leukemias are the most common malignant neoplasms in childhood, accounting for about 31% of all malignancies that occur in children <15 yrs of age. ALL (Acute Lymphoblastic Leukemia) accounts for about 77% of cases of childhood Leukemia. The Leukemias are a group of malignant diseases in which genetic abnormalities in a hematopoietic cell give rise to an unregulated clonal proliferation of cells.
Factors Predisposing to Childhood Leukemia
Genetic Conditions • • • • • • • • •
Down syndrome Fanconi anemia Bloom syndrome Diamond - Blackfan anemia Schwachman - diamond syndrome Kostmann syndrome Neurofibromatosis type I Ataxia - telongiectasia Severe combined immune deficiency
126 • •
Pre-NEET Pediatrics
Paroxysmal Noctural hemoglobinuria Li- Fraumeni syndrome.
Environmental Factors • • • • •
Ionizing radiation Alkylating agents Nitrosourea Benzene exposure Epipodophyllotoxin
Diagnosis Peripheral blood picture that indicates bone marrow failure -anemia, thrombocytopenia, elevated WBC count with/without leukemic cells (atypical lymphocytes). ALL is diagnosed by a bone marrow evaluation that demonstrates >25% of bone marrow cells as lymphoblasts. Classification
Based on
1. Morphology 2. Immunopheno type Leukemia
FAB criteria - L1, L2, L3 categories Precursor B cell, B cell or T cells
Prognostic Factors Good Prognosis
Bad Prognosis
1. Children between 1-9 yrs
Children <1yr, >9 yrs
2. Leukocyte count <50,000/mm3
Leukocyte count >50,000/mm3
3. Girls-Sex
Boys - higher relapse rate
4. B-cell Leukemia
T-cell Leukemia
5. Absence of mediastinal widening, CNS disease
Mediastinal mass or CNS disease at diagnosis
6. Hyperdiploidy
Hypodiploidy
7. Trisomy 4 and 10
Philadelphia positive t(9;22), t(4;11), t(8;14) in B cell ALL
8.
1000/mm3 blasts in peripheral blood following 7 days of prednisolone treatment and intrathecal dose of methotrexate
1000/mm3 blasts in PS following 7 days of prednisolone treatment and intrathecal dose of methotrexate.
Answers
127
Management
Treatment of ALL is divided into 4 stages i. ii. iii. iv.
Induction therapy (to attain remission) CNS prophylaxis Intensification (consolidation) Maintenance therapy
Average duration of treatment in ALL ranges between 2-2 ½ yrs. 1. Induction therapy: Lasts 4-6 weeks. Current induction regime includes vincristine, prednisolone, L-asparaginase and an anthracycline. 2. CNS prophylaxis: Essential to eradicate Leukemic cells which have passed the blood brain barrier. It comprises cranial irradiation with Intrathecal methotrexate. Other alternative regimen includes use of methotrexate, hydrocortisone, cytarabine. 3. Intensification therapy: It comprises intensified treatment after remission induction to tackle problem of drug resistance. Commonly used agents include methotrexate, L-asparaginase, Cyclophosphamide, Cytarabine and Epipodophyllotoxin. 4. Maintenance therapy: This is required to prevent relapse. It is continued for an additional 2-2.5 years after induction remission. The main agents used include 6-mercaptopurine daily and methotrexate once a week given orally
Relapse Early bone marrow relapse before completing maintenance therapy has the worst prognosis while late relapses after maintenance therapy have a better prognosis. Relapse in extramedullary sites especially testes is more favourable. The treatment of relapse must be more aggressive than the first line therapy. * Glioblastoma multiforme (grade IV) is an aggressive form of astrocytoma with poor prognosis. Pilocytic astrocytoma is with good prognosis. * Esophagealcarcinoma and Cholangio carcinoma usually remain asymptomatic for a very long time. By the time they are detected these malignancies would have already spread. So the only treatment that can be offered is palliation.
128
Pre-NEET Pediatrics
4. Ans is a. Factor X deficiency (Ref: O.P. Ghai 7th, Pg. 318-319, Nelson 19th, Pg. 1695-1708) To understand these disorders, we should know the normal pathway of coagulation.
Abnormal PT and aPTT Oral anticoagulants, Liver dysfunction Vit K deficiency, DIC
•
Abnormal aPTT Normal PT Hemophilia A and B, Von willebrand disease
Abnormal PT Normal aPTT Anti-coagulant therapy (eg: Warfarin) F Vll deficiency
Thrombin time: Prolonged thrombin time occurs with reduced fibrinogen levels (hypofibrogenemia or afibrogenemia). It measures the final step in clotting cascade, in which fibrinogen is converted to fibrin. • Bleeding time (BT): Assesses function of platelets and their interaction with the vascular wall. Prolonged BT may suggest decreased platelets, qualitative platelet defect, VWD or defect in vascular wall.
Answers
129
•
Deficiency of the contact factors (factor XII, Prekallikrein and HMW Kininogen) causes prolonged PTT but no bleeding symptoms. • Factor V deficiency: Autosomal recessive (parahemophilia) – Mucocutaneous bleeding, hematomas, severe menorrhagia are most common symptoms – Lab evaluation shows prolonged PTT and PT. • Factor X deficiency: It is rare autosomal disorder of variable severity. – A reduced factor X level is associated with prolongation of both PT and PTT. – In some cases of factor X deficiency, PT and aPTT can be normal also. Patients with factor X deficiency can present with umbilical stump bleeding at birth similar to factor XIII deficiency.
Factor XIII Deficiency PT and aPTT are normal. Test used in qualitative evaluation of factor XIII is evaluation of clot solubility in 5M urea.
Clinical Presentation • • •
Umbilical stump bleeding Poor wound healing Infertility, abortion among affected females.
Von Willibrand Disease Patients with deficiency of Von Willibrand factor rarely present in neonatal period, because plasma concentration of the factor is high in neonates. Usually presents with mucosal bleeding, menorrhagia. VWF helps in platelet aggregation and also serves as the carrier protein for factor VIII. VWF is stored in platelet & granules and endothelial cell Weibelpalade bodies.
Lab Findings • •
Prolonged bleeding time, prolonged aPTT. Normal platelet count (except 2B disease or platelet type disease)
130
Pre-NEET Pediatrics
Classification I. II. III.
Type Type Type
I II III -
VWF is quantitatively reduced VWF is qualitatively abnormal VWF is absent
Treatment Desmopressin used in type I disease releases VWF from endothelial cells.
Bernard-Soulier Syndrome • •
Caused by absence or severe deficiency of VWF receptor (GPIb complex) on platelet membrane. This is characterized by thrombocytopenia, giant platelets, prolonged BT, absent ristocetin induced platelet aggregation but normal aggregation to other agonists.
Glanzmann Thrombasthenia • •
Caused by deficiency of platelet fibrinoger receptor IIb/IIIa. Characterized by prolonged BT, normal platelet count, normal sized platelets, abnormal aggregation with all agonists except restocetin.
ALL INDIA PG MEDICAL ENTRANCE EXAMINATION 2012 1. Ans is a. Cystic fibrosis (Ref: 19th, Pg. 1481-1497, O.P. Ghai 7th, Pg. 274-75) Cystic fibrosis is an inherited multisystem disorder with autosomal recessive transmission. The cystic fibrosis gene is on Chromosome 7 (7q13) and there are more than 1400 mutations at CF locus, of which Delta F508 (which devotes a single deletion at 508 position of protein) is the commonest. The mutation affects the gene's protein product, cystic fibrosis transmembrane regulator (CFTR) which functions as a chloride channel and is expressed largely in epithelial cells of airways, the gastrointestinal tract, the sweat glands and the genito urinary system. Dysfunction of CFTR, the primary defect, leads to a wide and variable array of clinical manifestations and complications. For eg. Exocrine pancreatic insufficiency, severe chronic lung disease in children, pan sinusitis, nasal polyposis, Cholelithiasis and insulin dependent hyperglycemia.
Answers
131
Pathogenesis CF epithelial cells especially the respiratory tract are unable to secrete chloride ions which leads to excessive sodium and water reabsorption. This leads to viscous desiccated secretions that cause airway obstruction. In sweat glands, the main function to absorb rather than secrete chloride not done, consequently sodium levels are elevated in sweat.
Diagnosis •
Presence of typical clinical features ( Respiratory, GIT or Genito urinary) or
•
History of CF in sibling or
•
Positive newborn screening test plus
•
Laboratory evidence for CFTR dysfunction:
•
2 elevated sweat chloride concentrations obtained on separate days or
•
Identification of 2 CF mutations or
• •
An abnormal nasal potential difference measurement. More than 60 meq/L of chloride in sweat is diagnostic of CF
Management 1.
Respiratory: Airway clearance techniques, antibiotics and antiinflammatory agents.
2.
Nutritional: Increasing caloric intake, supplement fat soluble vitamins (A, D, E in twice the recommended doses), replace pancreatic enzymes.
2. Ans is a. Autism (Ref: Nelson 19th, Pg. 101)
132
Pre-NEET Pediatrics
The pervasive developmental disorders (PDD) are disturbance of brain development with genetic basis PDD includes Autism
Asperger's Rett's syndrome Childhood PDD - NOS syndrome disintegrative (not otherwise disorder specified)
• Delayed and disorde redcommunication • Atypical social interaction • Restricted range of interests • Onset before 3 yr of age
Similar to autism except language skills relatively intact. Usually not cognitively delayed.
Almost, always affects girls in skills between 6-18 months of age.
Clinically significant regression in skills bowel and bladder control, play motor skills) before 10 yrs of age
Features of 1 of the other autism spectrum disorders, but insufficient for a specific diagnosis
Autistic Disorder
Diagnosis DSM IV criteria for Autistic disorder (A) A total of six (or more) items from (1), (2), and (3) with at least 2 from (1) and one each from (2) and (3) (1) Qualitative impairment in social interaction, as manifested by least 2 of the following: a. Marked impairment in the use of non-verbal behaviours like eye – eye gaze, facial expression, body postures, and gestures to regulate social interaction. b. Failure to develop peer relationships approximate to developmental level.
Answers
133
c.
A lack of spontaneous seeking to share enjoyment, interests, or achievements with other people d. Lack of social or emotional reciprocity. (2) Qualitative impairments in communication as manifested by at least one of the following: a. Delay in, or total lack of, the development of spoken language b. In individuals with adequate speech, marked impairment in ability to initiate or sustain a conversation with others c. Stereo typed and repetitive use of language or idiosyncratic language d. Lack of varied, spontaneous make believe play or social initative lay appropriate to developmental level. (3) Restricted repetitive and Stereo typed patterns of behaviour, and activities, as manifested by lest one of the following: a. Encompassing preoccupation with one or more stereo typed and restricted patterns of interest that is abnormal either in intensity or focus b. Apparently inflexible adherence to specific non functional routines or rituals c. Stereo typed and repetitive motor manners d. Persistent preoccupation with parts of objects (B). Delays or abnormal functioning in at least one of following areas, with onset prior to 3 yrs. 1. Social interaction 2. Language as used in social communication or 3. Symbolic or imaginative play. (C) The disturbance is not better accounted for by Rett’s disorder or childhood disintegrative disorder. 3. Ans is b. Increased EFA (essential fatty acids) (Ref. Avory 8th, Pg. 1061, Cloherty 5th, Pg. 115) The Caloric value of 20% lipid emulsion is 2 kcal/mL. The use of 20% emulsion is preferred over 10% because the higher ratio of phospholipids to triglyceride in the 10% emulsion interferes with triglyceride clearance. Twenty percent emulsion also provide a more concentrated source of calories. For these reason, 20% lipid emulsions are preferred.
134
Pre-NEET Pediatrics
Parenteral Nutrition (PN)
Indications 1. 2. 3.
i.
Infants with b.wt 1500 gm Infants with b.wt of 1501 - 1800 gm for whom significant enteral nutrition is not expected for >3 days Infants with b.wt >1800 gm for whom significant enteral intake is not expected for >5 days. Goal of PN is to provide aminoacids to prevent negative energy and nitrogen balance. Goal therafter includes promotion of appropriate weight gain and growth, while awating the attainment of adequate enteral intake. Carbohydrate - Dextrose is the carbohydrate source in I/V solutions. – Calorie value of dextrose is 3.4 kcal/gm. Dextrose concentration via peripheral line is limited to 12.5% and upto 25% dextrose for central venous infusions. – Infusion rates above 11-14 mg/kg/min may exceed infants oxidative capacity and are generally not recommended
ii. Protein: Crystalline amino acid solutions provide the nitrogen source in PN. – The calorie value of amino acids is 4 kcal/gm. Infusion rates are generally initiated at 1gm/kg/dl to a target of 3.5 gm/kg/dl for neonates >1500 gm at birth. iii. Lipid: Soybean oil or a combination of soybean and safflower oil provide for I/V fat emulsions. – Infusion rates are generally initiated at 0.5 - 1gm/kg/dl within 24 - 48 hours of life to a target of 3.0 gm/kg/day. – Use of 20% emulsions is preferred (explained above). * Electrolytes, Vitamins and Minerals are added as per requirement.
Complications of PN 1. 2. 3. 4.
Cholestasis: as a result of hepatic dysfunction (Reduced bile flow and bile salt formation). Metabolic bone disease Azotemia, hyperammonemia, hyperchloremic metabolic acidosis seen especially with amino acid intakes >4 gm/kg/dl. Sepsis: associated with decreased Lipoprotein lipase activity. During sepsis, lipid infusion is limited to 2 gm/kg/dl if triglyceride> 150 mg/ dL
Answers 5. 6.
135
Hyperlipidemia/hypertriglyceridemia Indirect hyperbilirubinemis - due to displacement of bilirubin from albumin binding sites by free fatty acids.
4. Ans is d. Sacrococcygeal teratoma (Ref: Avery 8th, Pg. 1454)
Sacrococcygeal Teratoma Sacrococcygeal teratoma is the most common solid tumor in newborn, although it is rarely malignant. Females are affected 2-4 times more frequently than males. In most cases, the tumor manifests as a mass protruding between the coccyx and rectum. Most benign teratomas produce no functional difficulties. Bowel/bladder dysfunction, painful defection and vascular/ lymphatic obstruction suggest that the lesion is malignant.
Treatment It is primarily surgical if age adjusted AFP and HCG levels are normal. Chemotherapy (using Cisplatin and/ Bleomycin) + Surgery are used for malignant sacrococcygeal tumors.
Other Infant Tumors • •
The most common intrarenal neoplasm manifesting at birth is congenital mesoblastic nephroms followed by Wilm's tumor. Wilms tumor or nephroblastoma, is the most common intra abdominal tumor of childhood but is relatively rare in the neonatal period.
Congenital Leukemia Rarely occurs during the 1st month of life. Most of neonatal cases arise from the myeloid lineage. Trisomy 21 is particularly associated with AML in newborns. The chemotherapy regimens used in infants with myeloid leukemia are identical to those used in older children.
Transient Myelo-proliferative Disorder (TMD) • •
Associated with Down syndrome Down's syndrome and TMD have a 30% chance of developing leukemia latter in life.
136 • • •
Pre-NEET Pediatrics
TMD is a clonal disorder manifested by Hepatosplenomegally and circulating myeloblasts with/without anemia thrombocytopenia Cytogenetic analysis often is normal. In majority of cases, spontaneous resolution occurs.
CNS Tumours CNS malignancies are rare in newborn. Most of brain tumors are supratentorial half of them are gliomas. Infants with primitive neuroectodermal tumors and ependymoma have poor prognosis.
Hepatoblastoma Uncommon in infants and children. The most common malignant neoplasm involving the liver in infancy is "Metastatic neuroblastoma". The most common benign hepatic neoplasm in neonate are mesenchymal hamartomas and hemangiomas. Hereditary conditions with associated tumors 1. Ataxia - telangiectasia - Leukemia, lymphoma 2. Beckwith - Wiedemann syndrome - Wilm's tumor, hepatoblastoma, Rhabdomyosarcoma 3. Bloom syndrome - Leukemia 4. Denys - Drash syndrome - Familial Wilms tumor 5. Fanconi anemia - Leukemia 6. Klinefelter syndrome - Teratoma, leukemia, Breast cancers 7. Li-fraumeni syndrome - Sarcoma, CNS, Breast tumors 8. Neurofibroatosis - Glioma, leukemia, sarcoma 9. Trisomy 18 - Wilms tumor 10. Von hippel landau syndrome - Non Hodgkin lymphoma 11. WAGR syndrome - Wilms tumor 12. X-linked lymphoproliferative disorder - EBV lymphomas
5. Ans is a. Normal saline (Ref: O.P. Ghai 7th, Pg. 417, Nelson 19th, Pg. 1998)
Neural Tube Defects (NTDs) NTDs account for the largest proportion off congenital anomalies of the CNS and result from failure of neural tube to close spontaneously between the 3rd and 4th wk of in utero development. Many factors, including hyperthermia, valproic acid, malnutrition, chemicals, diabetes (maternal) and genetic determinants (mutations in
Answers
137
folate responsive or folate, dependent enzyme pathways) can affect normal development of the CNS. The major NTDs include spina bifida occulta, meningocele, myelomeningocele, encephalocele, anencephaly, caudal regression syndrome, dermal sinus, syringomyelia, diastematomyelia, and lipoma involving the conus medullaris. Prenatal screening of maternal serum for AFP in the 16th - 18th wk of gestation identifies foetuses with NIDs in Utero. Spina bifida occulta is a common anomaly consisting of a midline defect of vertebral bodies without protrusion of the spinal or meninges. Most patients are asymptomatic. Meningocele is formed when the meninges herniate through a defect in the posterior vertebral arches or the anterior sacrum. It is often associated with Arnold-Chiari malformation and hydrocephalus is either present at birth or appears later. Myelomeningocele is formed when spinal cord and meninges herniate through a defect in the posterior vertebral arches. It represents the most severe form of dysraphsim.
Prevention • •
•
Dose for primary prevention is 0.4 mg folate per day. A mother who has previously delivered a child with NTD should receive 4 mg per day of folic acid in subsequent pregnancies. Duration of supplementation is 2 months before and 3 months after conception. Hydrocephalus in association with a type II Chiari malformation develops in at least 80% of patients with myelomeningocele. Generally, the lower the deformity the less likely is the risk of hydrocephalus.
Treatment The defects which are covered by skin do not need urgent treatment but others should be closed soon after birth because they are likely to get infected. The Sac should be kept covered with a Sterile Saline - moistened gauze sponge to prevent infection and fluid loss. After repair of a myelomeningocele, most infants require a shunting procedure for hydrocephalus.
138
Pre-NEET Pediatrics
6. Ans is b. Small ASD (Ref: Nelson 19th, Pg. 1551-1553)
Atrial Septal Defect (ASD) ASD can occur in any portion of the atrial septum i. Ostium Secundum: defect in region of fossa ovalis ii. Ostium primum: defect is situated in the lower portion of atrial septum iii. Sinus Venosus ASD: defect in upper part of atrial septum in close relation to entry of the superior vena cava. Majority of the cases are sporadic. Autosomal dominant inheritance occurs as part of Holt-Oram syndrome (hypoplastic/absent radii 1st degree heart block, ASD) or in families with secundum ASD heart block. – An isolated valve: incompetent patent foramen ovale (PFO) is usually of no hemodynamic significance and is not considered an ASD. – Device closure of PFO is considered in young adults with history of thromboembolic stroke as it may be a risk for right to left (paradoxical)systemic embolization.
Clinical Manifestations A child with an ASD is most often asymptomatic However, a history of exercise intolerance, easy fatigability and recurrent pneumonias accentuated may be obtained with large left to right shunts. Auscultatory signs include a normal or accentuated 1st Heart sound; wide, fixed splitting of the 2nd sound a pulmonary systolic ejection murmur (due to increased flow of blood across right ventricular outflow tract into pulmonary artery), a short mid diastolic murmur produced by increased volume of blood flow across tricuspid valve. The chest X-ray shows varying degree of enlargement of the right ventricle and atrium, depending on the size of the shunt. The pulmonary artery is enlarged and pulmonary vascularity is increased.
Treatment Surgical closure usually after 1st year and before entry into school.
Answers
139
Indications i. ii.
All symptomatic patients Asymptomatic patients with pulmonary: Systemic blood food (Qp, Qs ratio) of at least 2:1 or those with right ventricular enlargement.
Complications Infective endocarditis is extremely rare and antibiotic prophylaxis is not recommended. * Partial anomalous pulmonary venous return (one or several pulmonary veins returning anomalously to superior or inferior vena cava, right atrium or the coronary (sinus)may be associated with ASD (mostly of sinus venosus type) * Scimitar syndrome: an anomalous pulmonary vein draining into the inferior vena cava visible on CXR as a crescentic shadow of vascular density along right border of the cardiac silhouette. 7. Ans is a. Can be seen after ventouse delivery (Ref: Meharban Singh 7th, Pg. 254-272, Nelson 19th, Pg. 602-613) Jaundice is observed during the 1st wk of life in approximately 60% of term infants and 80% of preterm infants. Although bilirubin may have a physiologic role as an antioxidant, elevations of indirect, unconjugated bilirubin are potentially neurotoxic. The conjugated form is not neurotoxic, direct hyperbilirubinemia indicates a potentially serious hepatic disorders or a systemic illness.
Physiological Jaundice In term babies, it appears after 36 hrs of age. Maximum intensity is seen on the 4th day, S. Bilirubin does not exceed 15 mg/dL and jaundice disappears by 10 days of life. In preterm babies, the maximum intensity of jaundice is reached on the 5th or 6th day, S. Bilirubin may go upto 15 mg/dL and it may persist upto 14 days. The etiology of physiologic jaundice appears to be over production due to polycythemia, poor hepatic uptake, conjugation and excretion of bilirubin. Pathological jaundice: when jaundice in the newborn does not conform to criteria described for physiological jaundice, it is designated as pathological. Cephalohematoma or significant bruising attributable to ventouse delivery is a major risk factor for development of pathological
140
Pre-NEET Pediatrics
hyperbilirubenemia as it increases the load of bilirubin to be metabolized by the liver.
Jaundice Associated with Breast Feeding 1. Breast feeding jaundice: is due to insufficient Breast feeding that leads to increased enterohepatic circulation. It is of early onset, which occurs in the 1st week of life. Hyperbilirubinemia (>12 mg/ dL) develops in 13% of breast fed infants in 1st wk of life. 2. Breast milk jaundice: develops in an estimates 2% of breast fed term infants after the 7th day of life with maximal concentrations as high as 10-30 mg/dL reached during the 2nd 3rd wk. – if breast feeding is continued, the levels will stay elevated and then fall slowly at 2 wks of age, returning to normal by 4 to 12 wks of age. – if breast feeding is stopped, the bilirubin level will fall rapidly in 48 hrs. – If nursing is then resumed, the bilirubin may rise 2-4 mg/dL but usually will not reach the previous level. Mothers with infants who have breast milk jaundice syndrome have a recurrence rate of 70% in future pregnancies. The etiology of breast milk jaundice may be attributed to the presence of glucuronidase in some breast milk.
Measures to Reduce S Bilirubin I.
Phototherapy: Bilirubin absorbs light at 425-475 mm and is converted into: a. Water soluble form of bilirubin by photo-oxidation b. Water soluble E-isomers (25% total S Bilirubin) by photoisomerization c. Most efficient structural photoisomers called lumirubin which are readily excreted in bile, feces and urine. The narrow spectral blue light is most effective for phototherapy.
Bronze Baby Syndrome Infants with Parenchymal liver disease with biliary obstruction may develop bronze discolouration of skin due to excessive accumulation of lumirubin which is polymerized to bilifuscin on exposure to phototherapy.
Answers
141
Exchange Blood Transfusion • •
It is most effective and reliable method to reduce bilirubin levels. Early indications for exchange blood transfusion in infants with Rhhemolytic disease of the newborn. a. Cord haemoglobin of <10 g/dL or hematocrit <30% b. Cord bilirubin >5 mg/dL c. Unconjugated S.bilirubin 10 mg/dL within 24hrs or rate of rise of >0.5 mg/dL/hr.
8. Ans is b. 10% Dextrose I.V.
Hypoglycemia in Newborn Definition is controversial, however most workers agree that blood glucose level of less than 40 mg/100mL (irrespective of period of gestation), if associated with symptoms of hypoglycaemia or if confirmed on repeat analysis in asymptomatic babies, is indicative of hypoglycaemia (1.0 mmd/L or glucose is equivalent to 18.02 mg/dL).
Classification of Neonatal Hypoglycemia 1. Fetal/ Neonatal hyperinsulinism – Maternal diabetes mellitus – Erythroblastosis fetalis – Wiedemann - Beckwith syndrome – Transposition of great vessels – Insulin producing tumors (nesidio blastosis, islet cell adenoma) – Maternal therapy with beta- sympathomimetics to colytic agents (Salbutamol, Terbutaline) 2. Decreased glycogen stores and/or increased utilization of glucose – Intrauterine growth retardation – Prematurity – Birth asphyxia – Hypothermia – Polycythemia – Septicemia
142
Pre-NEET Pediatrics
3. Miscellaneous Conditions – Inborn errors of metabolism (glycogen storage disease, galactosemia, fructose intolerance, CAH, cretinism) – Congenital Hypo pituitarism – Maternal therapy with Blockers (propanolol), Chlorpropamide – Exchange transfusion with heparinised blood/ACD/CPD blood.
Management
•
If baby requires >12 mg/kg/min glucose infusion or hypoglycaemia not resolved by day 7, start drugs like steroids, glucagon, diazoxide and investigate for resistant hypoglycaemia. (S. Cortisol, S. Insulin levels, CT scan pancreas, Screen for inborn errors of metabolism)
Answers
143
9. Ans is a. S. Uric acid (Ref: Nelson 18th, Pg. 629-631)
Lesch-Nyhan Disease (LND) This is a rare X-linked disorder of purine metabolism that results from HPRT (hypoxanthine guanine PRPP transferase) deficiency. This enzyme is normally present in each cell in the body, but its highest concentration is in the brain, especially in the basal ganglia. Clinical manifestations include hyperuricemia, intellectual disability, dystonic movement disorder including Choreoathetosis, Spasticity, dysarthric speech and compulsive self-biting, usually beginning with the teeth eruption.
Genetics The HPRT gene has been localized to the long arm of the XChromosome. The disorder appears in males, occurrence in females is extremely rare and ascribed to non-random inactivation of the normal X Chromosome. The mechanism whereby HPRT leads to the neurologic and behaviour symptoms is unknown but they are not caused by hyperuricemia or excess hypoxanthine as patients with partial HPRT deficiency do no self injure themselves.
Diagnosis The presence of dystonia along with self-mutilation of mouth and fingers suggests Lesch-Nyhan disease. Serum levels of uric acid >4-5 mg uric acid/dL and a urine uric acid, creatinine ratio of 3:4 or more are highly suggestive of HPRT deficiency. The definitive diagnosis requires an analysis of the HPRT enzyme.
Treatment Medical management of this disorder focuses on the prevention of renal failure by pharmacologic treatment of hyperuricemia with high fluid intake along with alkali and allopurinol. Bone marrow transplantation (BMT) has been carried out in several patients, based on the possibility that the CNS damage is produced by a circulating metabolic toxin.
144
Pre-NEET Pediatrics
10. Ans is a. 15 months (Ref: Nelson 19th, Pg. 31) Receptive language Precedes expressive language. By the time infants speak their first words around 12 months of age, they already respond appropriately to several simple statements, such as "no", "bye-bye", "giveme". By 15 months, the average child points to major body parts and uses 4-6 words spontaneously and correctly. Toddlers also enjoy polysyllabic jargoning but do not seem upset that no one understands. Most communication of wants and ideas continues to be nonverbal. 11. Ans is a. Shivering (Ref: Question AIIMS May 2012) 12. Ans is a. Deleted 21 (Ref: O.P. Ghai 7th, Pg. 613, Nelson 19th, Pg. 401-403)
Down Syndrome This is the most common disorder occurring with a frequency of 1:800 - 1:1000 newborns. Chromosome number 21 is present in triplicate, the origin of extra chromosome 21 is mostly from the mother (97%). The risk in newborn is 1:1550 if maternal age is between 15 and 29 years, 1:800 at 30-34 yrs, 1:270 at 35-39 yrs, 1:100 at 40-44 yrs and 1:50 after 45 yrs.
Cytogenetics In approximately 95% of the cases of Down syndrome there are 3 copies of Chromosome 21. Approximately 1% of Trisomy 21 are mosaics (with some cells having 46 Chromosomes). 4% have translocation that involves Chromosome 21. Majority of translocations are fusions at centromere between Chromosomes 13,14,15,21 and 22 called as Robert Sonian translocation. Translocation (21,21) Carriers have a 100% recurrence risk and other Robert Sonian translocations have a 5-7% recurrence risk when transmitted by females. It is not possible to distinguish the phenotypes of persons with full trisomy 21 and those with a translocation while patients who are mosaics tend to have a milder phenotype.
Answers
145
Prenatal Diagnosis Initial Screening - PAPP-A, free hCG in first trimester Second trimester (Quad testing) - S. FP, hCG, Unconjugated estriol and inhibin A. Inhibin A, hCG (Both with 'h'spelling have high levels in Down's syndrome. Rest all are decreased. (i.e. PAPP-A, S. FP, Unconjugated estriol)
Ultrasound Findings • •
1st trimester: Nuchal translucency and nasal bone 2nd trimester: Increased nuchal fold thickness (measured over occiput), short femur and humerus length and duodenal atresia.
AIIMS NOVEMBER 2011 1. Ans. is c. Obstructive TAPVC (Ref: Park- Paediatric cardiology 5th, Pg. 164-165, Nelson 18th, Pg. 1856, 1922-1924) Functional closure of the ductus arteriosus occurs within 10-15 hours after birth by constriction of the medial smooth muscle in the ductus. Anatomic closure is completed by 2-3 wks of age by permanent changes in the endothelium and subintimal layers of the ductus. During fetal life, patency of the ductus appears to be maintained by the combined relaxant effects of low oxygen tension and endogenously produced Prostglandens esp PGE2. However, ductus of a premature infant is less responsive to oxygen, ever though its musculature is developed. PGE2 maintains the patency of ductus arteriosus so it is useful in heart lesions where the patency of ductus is essential to maintain the blood flow in either Aorta or Pulmonary artery (since it is the connection of two). If a cyanotic congenital heart defect or a ductus dependent cardiac defect (e.g: Pulmonary atresia with or without VSD, Trucuspid atresia, Hypoplastic left heart syndrome, interrupted aortic arch. Severe CoA, Transposition of great Vessels) is suspected or confirmed, a PGE, intravenous infusion should be started.
TAPVR (Total Anomalous Pulmonary Venous Return) In TAPVR, the heart has no direct pulmonary venous connection into the left atrium.
146
Pre-NEET Pediatrics
Types of TAPVR: Pulmonary veins may drain into 1. Superior Vena Cava - Supracardiac (50%) 2. Coronary Sinus, Right atrium - Cardiac (25%) 3. Inferior Vena Cava - Infracardiac (20%) 4. Mixed (5%) The manifestations of TAPVR depend on the presence or absence of obstruction of the venous Channels. If pulmonary venous return is obstructed, severe pulmonary congestion and pulmonary hypertension develop. Obstructed TAPVR is a Pediatric cardiac surgical emergency because prostaglandin therapy is usually not effective. Chest X-ray of supracardiac TAPVR shows a "snowman" appearance. This is however not useful in early infancy because of the thymus. 2. Ans is a. VDRL for mother and baby (Ref: Nelson 19th, Pg. 1016-1022) Congenital syphilis results from transplancental transmission of spirochetes. Transmission can occur at any stage of pregnancy. Untreated syphilis during pregnancy has a vertical transmission rate approaching 100% Fetal or Perinatal death occurs in 40% of affected infants. In congenital syphilis, manifestations have been divided into early and late stages. I. Early signs: appear during first 2 yr of life. They result from transplacental spirochetemia and are analogous to secondary stage of acquired syphilis. Symptoms/ Signs include: a. Hepato splenomegally b. Lymphadenopathy c. Coombs negative haemolytic anemia d. Thrombocytopenia e. Osteochondritis, periostitis f. Mucocutaneous rash - Mucous patches g. Persistent rhinitis (snuffles) h. Condylomatous lesions i. X-ray features: Wimberger's lines (metaphyseal demineralization of medial aspect of proximal tibia), osteochondritis (painful, resulting in Parrot's Pseudo paralysis) j. CNS abnormalities, failure to thrive, chorioretinitis, Nephritis and Nephritic syndrome.
Answers
147
II. Late Manifestation: appear gradually after 2 yrs of age. These result primarily from chronic granulomatous inflammation of bone, teeth and CNS. These are: Olympian brow, Higoumenaki sign (Unilateral or bilateral thickening of sternoclavicular third of the clavicle), Saber Shin's (anterior bowing of tibial midportion), Hutchinson teeth (Peg shaped upper central incisors), Saddle nose (Depression of nasal root), Hutchinson triad (Hutchinson teeth, interstitial keratitis, and 8th nerve deafness), Clutton joints (unilateral or bilateral painless joint swelling).
Diagnosis 1.
2.
VDRL (Venereal disease research laboratory) tests are sensitive nontreponemal tests that detect antibodies against phospholipid antigens on the treponema surface that cross react within the mammalian cardiolipin - lecithin - cholesterol antigens. Titres increase with active disease and decline with adequate treatment. – False positive VDRL: Infectious mononucleosis, connective tissue disease, pregnancy. – False negative VDRL: Prozone effect (excess antibody), early primary syphilis, latent syphilis, late congenital syphilis). Treponemal antibody tests: TPHA (T. Pallidum hemagglutination assay), FTA-abs (Fluorescent treponemal antibody absorption) test. These tests become positive soon after initial infection and usually remain positive for life, even with adequate therapy. – They are useful for diagnosis of a 1st episode of syphilis and for distinguishing false positive result of VDRL but cannot accurately identify length of time of infection, response to therapy or reinfection.
Treatment Congenital syphilis: Aqueous crystalline penicillin I/V for 10 days. 3. Ans is c. Vein of galen malformation (Ref: Nelson 18th, Pg. 1988, 2511) Arterio venous malformations result from failure of normal capillary bed development between arteries and veins during embryogenesis. AV malformations produce abnormal shunting of blood, causing vessel expansion, a space occupying effect or rupture and intracerebral bleeding. The vein of galen is an arterio venous malformation that is located under cerebral hemisphere and drains the anterior and central regions of the brain into the sinuses of posterior cerebral fossa.
148
Pre-NEET Pediatrics
Auscultation of skull is positive for a high pitched bruit. USG demonstrate a hypoechoic mass located posterior to the third ventricle with pulsatile flow that helps in differentiating it from other midline cystic lesions. Vein of galen malformation can cause high output congestive heart failure secondary to shunting of large volumes of blood or progressive hydrocephalus secondary to obstruction of the CSF pathways. Vein of galen malformations are difficult to treat (surgery or occlusive therapy) and are associated with a poor prognosis. 4. Ans is a. Kartagener's syndrome (Ref: Nelson 18th, Pg. 1817-1819) Primary ciliary dyskinesis (PCD) comprises those respiratory disorders having malfunction of airway cilia that lead to repeated and chronic lung and sinus infections. About 50% of patients with PCD have Kartagener syndrome: • Situs inversus • Chronic sinusitis and otitis • Airway disease leading to bronchectasis Approximately 25% patients with situs inversus have PCD, the presence of situs inversus does not establish the presence of PCD. In classical PCD, there is absence of both inner and outer dynein arms. Partial dynein arm defects or defects in central doublets are generally not associated with situs inversus.
Genetics Most PCD cases are autosomal recessive though there are reported cases of Autosomal dominant and X-linked modalities. Austosomal dominant and x-linked modalities. 5. Ans is b. Primary hypothyroidism (Ref: Nelson 19th, Pg. 1895-1903) Both choices A and C are similar - Both cause hyperthyroidism with a high T4 level. Choice D, TSH resistance is a very rare condition and many reported cases showed normal T4 level.
Hypothyroidism •
Most cases of congenital hypothyroidism are not hereditary and result from thyroid dysgenesis (accouting for 80-85% cases). Most common dysgenesis is an ectopic gland. Thyroid peroxidase defects
Answers
•
• • •
149
of organification and coupling are the most common of the T4 synthetic defects. Pendred syndrome: an autosomal recessive disorder comprising sensineural deafness and goiter, also have impaired iodide organification and a positive perchlorate discharge. It is due to a mutation in the chloride-iodide transport protein common to the thyroid gland and the Cochlea. The most common cause of acquired hypothyroidism is chronic lymphocytic (Hashi Moto's) Thyroiditis. Maternal medications causing hypothyroidism are iodides, amiodarone, propylthiouracil, methimazole, Radioiodine. Kocher-Debre Semelaign syndrome: Generalized muscular pseudohypertrophy esp. Boys in some affected patients with hypothyroidism of longer duration and severity.
Laboratory Findings • •
•
• • • •
Newborn screening is done by heel prick between 2 and 5 days of life (Raised TSH, low T4 level). Retardation of bone age at birth can be shown in about 60% of congenital hypothyroidism infants. The distal femoral epiphyses, normally present at birth is after absent. The epiphysis often have multiple foci of ossification (epiphyseal dysgenesis), deformity ("beaking") of the 12th thoracic or 1st or 2nd lumbar vertebra is common. Treatment : Levothyroxine is the treatment of choice Neonates - Initial starting dose is 10-15 µg/kg/d Children - 4 µg/kg/24 hr Adults - 2 µg/kg/24 hr
6. Ans is b. Sickle cell anemia (Ref: Nelson 19th, Pg. 1662) • G6Pd and hereditary spherocytosis can cause episodic anemia with jaundice since birth. • Our choice here is sickle cell anemia as it never manifests in first 6 month of life. • Beta globin disorders such as sickle cell disease or beta-thalassemia major do not become apparent clinically until several months of age, when the switch from Haemoglobin F to haemoglobin A synthesis reveals the defect. • Moreover sickle cell anemia usually presents with anemia, fever (infections), acute splenic sequestration, dactylitis , stroke etc.
150 •
•
Pre-NEET Pediatrics
While Paroxysmal nocturnal hemoglobinuria is a rare disorder of abnormal marrow stem cells that affects each blood cell lineage. It is an acquired disorder that is characterized by a defect in proteins of the cell membrane (including decay accelerating factor, the C8 binding protein) that renders RBCs and other cells susceptible to damage by plasma complement. The underlying defect involves the glycolipid anchor that maintains these protective proteins on the cell surface. PIGA gene encodes for phosphatidyl glycan protein which is essential for synthesis of GPI (glycolipid anchor).
Clinical Manifestations 1.
Nocturnal and morning hemoglobinuria is a classic finding in adults. However, chronic hemolysis (intravascular) is more common in PNH, despite its name. 2. Thrombocytopenia and leukopenia are after seen. 3. Thrombosis and thromboembolic phenomena are sometimes seen (due to altered glycoproteins on the platelet surface and resultant platelet activation). 4. Hypoplastic or a plastic pancytopenia may follow/precede the onset of PNH 5. PNH rarely progresses to acute myelogenous leukemia
Lab Findings 1.
2.
Acidified serum hemolysis (Ham) test or sucrose lysis test. These tests activate the alternative and classic pathways of complement lysis, respectively. Flow cytometry is the diagnostic test of choice for PNH. It uses anti CD59 for RBCs and anti CD55, anti CD59 for granulocytes.
Treatment 1. 2. 3. 4. 5.
Splenectomy is not indicated. Glucocorticoids for acute hemolytic episodes Prolonged anticoagulant therapy Bone marrow transplantation Eculizumab, monoclonal antibody against complement proteins C5, stabilized haemoglobin levels and decrease the rate of hemolysis.
Previous Year’s Questions of
DNB QUESTIONS PAEDIATRICS 2010 Q 1. Earliest indication of sexual maturation in a girl is: A. Menarche B. Pubarche C. Thelarche D. Maturation of breasts Ans. is C. Thelarche
(Ref: O.P. Ghai 7th, Pg. 498) Q 2. Epiphyseal dysgenesis is a pathognomonic feature of: A. Hypoparathyroidism B. Hyperparathyroidism C. Hypothyroidism D. Hyperthyroidism Ans. is C. Hypothyroidism
(Ref: Nelson 19th, Pg. 1899) Q 3. Commonest cause of stridor in a new born is: A. Laryngomalacia B. Foreign body C. Meconium aspiration D. Recurrent laryngeal nerve palsy due to birth Ans. is A. Laryngomalacia
(Ref: O.P. Ghai 7th, Pg. 340) Q 4. Precocious puberty is seen in: A. Hyperthyroidism B. Addison’s disease
152
Pre-NEET Pediatrics
C. McCune Albright syndrome D. Neuroblastoma Ans. is C. McCune Albright syndrome
(Ref: Nelson 19th, Pg. 1892) Q 5. The commonest cause of death in diphtheric child is: A. IIIrd nerve palsy C. Tonsilitis B. Myocarditis D. Septicemia Ans. is B. Myocarditis
(Ref: IAP Textbook of Pediatrics 4th, Pg. 364) Q 6. Berger nephropathy is due to mesangiai deposition of: A. Fibrin and C3 B. IgD and C3 C. IgE and C3 D. IgA and C3 Ans. is D. IgA and C3
(Ref: O.P. Ghai 7th, Pg. 446) Q 7. Pawn ball megakaryocytes are characteristic of: A. Myelodysplastic syndrome B. Idiopathic thrombocytopenic purpura C. Thrombotic thrombocytopenic purpura D. Chloramphenicol toxicity Ans. is A. Myelodysplastic syndrome Q 8. Commonest cause of heart failure in infancy is: A. Myocarditis B. Rheumatic fever C. Cardiomyopathy D. Congenital heart disease Ans. is D. Congenital heart disease
(Ref: O.P. Ghai 7th, Pg. 372) Q 9. A 3.5 kg baby born to diabetic mother develops seizures at 16 hours.The most likely cause is: A. Hypoglycemia B. Hypoxia/Respiratory distress syndrome
Previous Year’s Questions of DNB
153
C. Hypomagnesiumia D. Hypocalcemia Ans. is A. Hypoglycemia
(Ref: O.P. Ghai 7th, Pg. 156) Q 10. Which of the following is not used a in term baby as vigorous: A. Color B . Heart rate C. Respiratory effort D. Muscle tone Ans. is A. Color
(Ref: O.P. Ghai 7th, Pg. 100) Q 11. Early neonatal sepsis in india is most commonly due to: A. Escherichia coli B . Group-B Stretococci C. Staphylococci D. Pseudomonas Ans. is A. Escherichia coli
(Ref: O.P. Ghai 7th, Pg. 136) Q 12. A neonate with recurrent infection and abscess was diagnosed with Kostmann syndrome. Treament is: A. G-CSF B. GM-CSF C. Antithymocyte globulin+cyclosporin D. Antithymocyte globulin+cyclosporin +GM-CSF Ans. is A. G-CSF
(Ref: Nelson 19th, Pg. 750) Q 13. Aniridia is associated with: A. Hepatoblastoma B. Medulloblastoma C. Nephroblastoma D. Retinoblastoma Ans. is C. Nephroblastoma
(Ref: Nelson 19th, Pg. 1758)
154
Pre-NEET Pediatrics
Q 14. Which of the following is associated with >20% risk of chromosomal anomalies: A. Cleft lip B. Gastroschisis C. Omphalocele D. Spina bifida Ans. is C. Omphalocele
(Ref: Avery 8th, Pg. 1114) Q 15. A premature baby weighing 1.5 kg, born with emergnancy C.S. at 32 weeks, now develops respiratory distress with grunting the best management would be: A. C-pap B. Mechanical ventilation C. Moist oxygen through headbox D. Surfactant therapy plus mechanical ventilation Ans. is D. Surfactant therapy plus mechanical ventilation
(Ref: Nelson 19th, Pg. 584)
PAEDIATRICS 2009 Q 1. Commonest cause of heart failure in infancy is: A. Myocarditis B. Rheumatic fever C. Cardiomyopathy D. Congenital heart disease Ans is D. Congenital heart disease
(Ref: O.P. Ghai 7th, Pg. 372) Q 2. Congenital long QT syndrome is associated with neonatal: A. Sinus bradycardia B. Sinus tachycardia C. Supra ventricular. tachycardia D. Ventricular tachycardia Ans. is A. Sinus bradycardia
(Ref: Nelson 19th, Pg. 1617)
Previous Year’s Questions of DNB
155
Q 3. Single gene defect causing multiple unrelated problems: A. Pleiotropism B. Pseudodominance C. Penetrance D. Anticipation Ans. is A. Pleiotropism Q 4. A newborn baby presented with profuse bleeding from umbilical stump after birth. Probable diagnosis is: A. Factor XIII deficiency B. VWF deficiency C. Factor XII deficiency D. Glanzmann thrombosthenia Ans. is A. Factor XIII deficiency
(Ref: Nelson 19th, Pg. 1704) Q 5. Common to both acute and chronic malnutrition is: A. Weight for age C. Height for age B. Weight for height D. BMI Ans. is A. Weight for age
(Ref: O.P. Ghai 7th, Pg. 62) Q 6. Persistence of Moro’s reflex is abnormal beyond the age of: A. 3rd month B. 4th month C. 5th month D. 6th month Ans. is D. 6th month
(Ref: Forfar 6th, Pg. 311) Q 7. Most common cause of renal artery stenosis in children in India is: A. Takayasu Aortoarteritis B. Fibromedial hypertrophy
156
Pre-NEET Pediatrics
C. Fibrointimal hyperplasia D. Polyarteritis Nodosa Ans. is A. Takayasu Aortoarteritis
(Ref: Paediatric Nephrology 5th, Pg. 162) Q 8. Drug of choice for Rheumatic fever prophylaxis in penicillin allergic patient: A. Erythromycin B. Clindamycin C. Vancomycin D. Gentamycin Ans. is A. Erythromycin
(Ref: Nelson 19th, Pg. 924) Q 9. Common to both acute and chronic malnutrition is: A. Weight for age B. Weight of height C. Height for age D. BMI Ans. is A. Weight for age
(Ref: O.P. Ghai 7th, Pg. 62) Q 10. Essential criteria for TOF includes all, except: A. Valvular stenosis B. Infundibular stenosis C. Over riding of aorta D. RVH Ans. is A. Valvular stenosis
(Ref: O.P. Ghai 7th, Pg. 408) Q 11. All of the following are features of down’s syndrome, except: A. Increased PAPPA B. Increased free beta HCG levels C. Absent nasal bone D. Abnormal ductus venous flow velocity Ans. is A. Increased PAPPA
(Ref: IAP textbook of Pediatrics 4th, Pg. 995)
Previous Year’s Questions of DNB
157
Q 12. Most common inherited childhood tumor is: A. Leukemia B. Neuroblastoma C. Retinoblastoma D. Wiulm’s tumor Ans. is C. Retinoblastoma Q 13. Turner syndrome is maximally associated with: A. Horseshoe kidney B. Coarctation of arota C. VSD D. ASD Ans. is B. Coarctation of arota Q 14. Most common sequelae to periventricular leukomalacia is: A. Spastic diplegia B. Spastic quadriplegia C. Hypotonia D. Mental retardation Ans. is A. Spastic diplegia
(Ref: O.P. Ghai 7th, Pg. 559) Q 15. Neonate with recurrent infection and abscess diagnosed of kostmann syndrome. Treatment include: A. Anti thymocyte globulin + cyclosporin B. Anti thymocyte globulin + cyclosporin + gm-csf C. G-CSF D. GM-CSF Ans. is C. G-CSF
(Ref: Nelson 19th, Pg. 750) Q 16. What constitutes Pentalogy of Fallot: A. TOF + PDA B. TOF + ASD C. TOF+ COA D. TOF + Polysplenia Ans. is B. TOF + ASD
158
Pre-NEET Pediatrics
Q 17. Most sensitive indicator of intravascular volume in infant is: A. Cardiac output B. Heart rate C. Stroke volume D. Preload Ans. is B. Heart rate
(Ref: O.P. Ghai 7th, Pg. 697) Q 18. Chang staging is for: A. Retino blastoma B. Rhabdo myosarcoma C. Ewings sarcoma D. Medulloblastoma Ans. is D. Medulloblastoma
(Ref: Forfar 6th, Pg. 1115) Q 19. Wilms tumour is associated with all except: A. Aniridia B. Hemihypertrophy C. Hypertension D. Bilateral polycystic Kidney Ans. is D. Bilateral polycystic Kidney
(Ref: Nelson 19th, Pg. 1758)
PAEDIATRICS 2007 Q 1. Earliest indication of sexual maturation in a girl is: A. Menarche B. Pubarche C. Thelarche D. Maturation of breasts Ans. is C. Thelarche
(Ref: O.P. Ghai 7th, Pg. 498) Q 2. The first permanent teeth to erupt are usually the: A. Lateral incisors B. Central incisors
Previous Year’s Questions of DNB
159
C. Second molars D. First molars Ans. is D. First molars
(Ref: O.P. Ghai 7th, Pg. 4) Q 3. Blood specimen for neonatal thyroid screening is obtained on: A. Cord blood B. 24 hours after birth C. 48 hours after birth D. 72 hours after birth Ans is C. 48 hours after birth
(Ref: O.P. Ghai 7th, Pg. 483) Q 4. Treatment of choice for thalassemia major is: A. Blood transfusion and iron therapy B. Folic acid and desferrioxamine C. Blood transfusion and desferrioxamine D. Iron, blood transfusion and desferrioxamine Ans. is C. Blood transfusion and desferrioxamine
(Ref: O.P.Ghai 7th, Pg. 309) Q 5. One of the intestinal enzymes that is generally deficient in children following an attack of severe infectious enteritis is: A. Lactase B. Trypsin C. Lipase D. Amylase Ans. is A. Lactase
(Ref: O.P. Ghai 7th, Pg. 266) Q 6. Sure sign of CCF in a infant is: A. Basal crepts B. JVP C. Pedal oedema D. Liver enlargement Ans. is D. Liver enlargement
(Ref: O.P. Ghai 7th, Pg. 375)
160
Pre-NEET Pediatrics
Q 7. Epiphyseal dysgenesis is a pathognomonic feature of: A. Hypoparathyroidism B. Hyperparathyroidism C. Hypothyroidism D. Hyperthyroidism Ans. is C. Hypothyroidism
(Ref: Nelson 19th, Pg. 1899) Q 9. Commonest cause of stridor in a new born is: A. Laryngomalacia B. Foreign body C. Meconium aspiration D. Recurrent laryngeal nerve palsy due to birth Ans. is A. Laryngomalacia
(Ref: O.P. Ghai 7th, Pg. 340) Q 9. Attainment of weight of a preschool normal child is: A. 2-2.5 Kg B. 3-3.5 Kg C. 4-4.5 Kg D. 5-5.5 Kg Ans. is B. 3-3.5 Kg
(Ref: IAP textbook of Pediatrics 4th, Pg. 84) Q 10. Precocious puberty is seen in: A. Hyperthyroidism B. Addison’s disease C. McCune Albright syndrome D. Neuroblastoma Ans. is C. McCune Albright syndrome
(Ref: Nelson 19th, Pg. 1892) Q 11. The commonest cause of death in diphtheric child is: A. IIIrd nerve palsy B. Myocarditis C. Tonsilitis D. Septicemia Ans. is B. Myocarditis
(Ref: IAP textbook of Pediatrics 4th, Pg. 364)
Previous Year’s Questions of DNB
161
Q 12. 15 months old child can do all, except: A. Feeds self with spoon B. Says three words C. Builds tower of 2 blocks D. Creeps upstairs Ans. is A. Feeds self with spoon
(Ref: Nelson 19th, Pg 32) Q 13. Best method of diagnosis of childhood HIV: A. CD4 cell counts B. P24 antigen C. ELISA D. Anti HIV antibody Ans is B. P24 antigen
(Ref: Nelson 19th, Pg. 1167) Q 14. Association of sexual precocity, multiple cystic bone lesions and endocrinopathies are seen in: A. McCune-Albright’s syndrome B. Granulosa cell tumor C. Androblastoma D. Hepatoblastoma Ans. is A. McCune-Albright’s syndrome
(Ref: Nelson 19th, Pg. 1892) Q 15. Berger nepbropathy is due to mesangial deposition of: A. Fibrin and C3 B. IgD and C3 C. IgE and C3 D. IgA and C3 Ans. is D. IgA and C3
(Ref: O.P. Ghai 7th, Pg. 446) Q 16. Commonest cause of heart failure in infancy is: A. Myocarditis B. Rheumatic fever C. Cardiomyopathy D. Congenital heart disease Ans. is D. Congenital heart disease
(Ref: O.P. Ghai 7th, Pg. 372)
162
Pre-NEET Pediatrics
Q 17. Congenital long QT syndrome is associated with neonatal: A. Sinus bradycardia B. Sinus tachycardia C. Supra ventricular tachycardia D. Ventricular tachycardia Ans. is A. Sinus bradycardia
(Ref: Nelson 19th, Pg. 1617) Q 18. Pawn ball megakaryocytes are characteristic of: A. Myelodysplastic syndrome B. Idiopathic thrombocytopenic purpura C. Thrombotic thrombocytopenic purpura D. Chloramphenicol toxicity Ans. is A. Myelodysplastic syndrome
PAEDIATRICS 2006 Q 1. Commonest cause of meningitis in postneonatal period is: A. Mycobacterium tuberculosis B. Staph. aureus C. Str. pneumonae D. Klebsiella Ans is C. Str. Pneumonae
(Ref: O.P. Ghai 7th, Pg. 536) Q 2. Epiphyseal dysgenesis is a pathognomonic feature of: A. Hypoparathyroidism B. Hyperparathyroidism C. Hypothyroidism D. Hyperthyroidism Ans. is C. Hypothyroidism
(Ref: Nelson 19th, Pg. 1899) Q 3. In Down’s syndrome, following congenital defect is common: A. PDA B. PS
Previous Year’s Questions of DNB
163
C. ASD D. VSD Ans. is C. ASD
(Ref: IAP textbook of Pediatrics 4th, Pg. 994) Q 4.Craniotabes is found in children with the following conditions except: A. Rickets B. Hydrocephalus C. Syphilis D. Kernicterus Ans. is D. Kernicterus
(Ref: Nelson 19th, Pg. 200) Q 5. Commonest haematological malignancy in children is: A. CLL B. AML C. CML D. ALL Ans. is D. ALL
(Ref: Nelson 19th, Pg. 1732) Q 6. Commonest cause of stridor in a new born is: A. Laryngomalacia B. Foreign body C. Meconium aspiration D. Recurrent laryngeal nerve palsy due to birth Ans. is A. Laryngomalacia
(Ref: O.P. Ghai 7th, Pg. 340
PAEDIATRICS 2005 Q 1. The most important cause of under 5 mortality is: A. Diarrhoea B. Malnutrition C. Respiratory infections D. Trauma Ans. is C. Respiratory infections
(Ref: O.P. Ghai 7th, Pg. 356)
164
Pre-NEET Pediatrics
Q 2. Commonest cause of stridor in a new born is: A. Laryngomalacia B. Foreign body C. Meconium aspiration D. Recurrent laryngeal nerve palsy due to birth Ans. is A. Laryngomalacia
(Ref: O.P. Ghai 7th, Pg. 340) Q 3. 15 months old child do all, except: A. Feeds self with spoon B. Says three words C. Builds tower of 2 blocks D. Creeps upstairs Ans. is A. Feeds self with spoon
(Ref: Nelson 19th, Pg. 32) Q 4. Commonest nephrotic syndrome in child: A. Minimal change B. Chronic glomerulonephritis C. Hemolytic uremic syndrome D. Congenital Ans. is A. Minimal change
(Ref: O.P. Ghai 7th, Pg. 451) Q 5. A six years old girl child presents with spotting, no secondary sexual characteristic present, cause can be: A. Menarche B. Foreign body C. Gonococcal infection D. Haemorrhagic disease Ans. is B. Foreign body
(Ref: Forfar 6th, Pg. 1152) Q 6. Best method of diagnosis of childhood HIV. A. CD4 cell counts B. P24 antigen C. ELISA D. Anti HIV antibody Ans. is B. P24 antigen
(Ref: Nelson 19th, Pg. 1167)
Previous Year’s Questions of DNB
165
Q 7. Attainment of weight of a preschool normal child is: A. 2-2.5 Kg B. 3-3.5 Kg C. 4-4.5 Kg D. 5-5.5 Kg Ans. is B. 3-3.5 Kg
(Ref: IAP textbook of Pediatrics 4th, Pg.84)
PAEDIATRICS 2004 Q 1. Craniotabes is found in children with the following conditions except: A. Rickets B. Hydrocephalus C. Syphilis D. Kernicterus Ans. is D. Kernicterus
(Ref: Nelson 19th, Pg. 200) Q 2. In minimal change disease, correct is: A. Most cases recover spontaneously B. 20% go to CRF C. 20% develop local glomerulosclerosis D. 90% cases best respond to short course of steroid therapy Ans. is D. 90% cases best respond to short
course of steroid therapy
(Ref: Nelson 19th, Pg. 1803) Q 3. Commonest haematological malignancy in children is: A. CLL B. AML C. CML D. ALL Ans. is D. ALL
(Ref: Nelson 19th, Pg. 1732) Q 4. Metabolic acidosis is accompanied with: A. Acetazolamide B. Phenformin
166
Pre-NEET Pediatrics
C. Verapamil D. Triamterene Ans. is A. Acetazolamide
(Ref: O.P. Ghai 7th, Pg. 55) Q 5. The commonest cause of death in diphtheric child is: A. IIIrd nerve palsy B. Myocarditis C. Tonsillitis D. Septicemia Ans. is B. Myocarditis
(Ref: IAP textbook of Pediatrics 4th, Pg. 364) Q 6. Unconjugated hyperbilirubinemia in newborn is caused by following, except: A. Breast milk jaundice B. Galactosemia C. Sphereocytosis D. Gilbert’s syndrome Ans. is B. Galactosemia
(Ref: Nelson 19th, Pg. 1376) Q 7. Commonest cause of meningitis in postneonatal period is: A. Mycobacterium tuberculosis B. Staph. aureus C. Str. pneumoniae D. Klebsiella Ans. is C. Str. Pneumonia
(Ref: Nelson 19th, Pg. 2087) Q 8. Sure sign of CCF in a infant is: A. Basal crepts B. JVP C. Pedal oedema D. Liver enlargement Ans. is D. Liver enlargement
(Ref: O.P. Ghai 7th, Pg. 375)
Previous Year’s Questions of DNB
167
PAEDIATRICS 2003 Q 1. Epiphyseal dysgenesis is a pathognomonic feature of: A. Hypoparathyroidism B. Hyperparathyroidism C. Hypothyroidism D. Hyperthyroidism Ans. is C. Hypothyroidism
(Ref: Nelson 19th, Pg. 1899) Q 2. Commonest cause of systemic hypertension in children is: A. Coarctation of aorta B. Acute glomerulonephritis C. Nephrotic syndrome D. Lactic acidosis Ans. is B. Acute glomerulonephritis
(Ref: O.P. Ghai 7th, Pg. 434) Q 3. Organism in bronchiolitis is: A. Adeno virus B. Influenza virus C. Rhino virus D. RSV Ans. is D. RSV
(Ref: Nelson 19th, Pg.1456) Q 4. Steroids is useful in: A. Post-streptococcal glomerulonephritis B. Membranous glomerulonephritis C. Rapidly progressing glomerulonephritis D. Minimal change type Ans. is D. Minimal change type
(Ref: Nelson 19th, Pg. 1803) Q 5. Not seen in Fallot’s tetralogy: A. ASD B. VSD
168
Pre-NEET Pediatrics
C. Pulmonary stenosis D. Left ventricular hypertrophy Ans. is A. ASD
(Ref: Nelson 19th, Pg. 1573) Q 6. In Down’s syndrome, following congenital defect is common: A. PDA B. PS C. ASD D. VSD Ans. is C. ASD
(Ref: IAP textbook of Pediatrics 4th, Pg. 994) Q 7. Following are causes of Pan systolic murmur, except: A. MR B. MS C. VSD D. TR Ans. is B. MS
(Ref: Nelson 19th, Pg. 1556, 1627, 1628) Q 8. Precocious puberty is seen in: A. Hyperthyroidism B. Addison’sdisease C. McCune Albright syndrome D. Neuroblastoma Ans. is C. McCune Albright syndrome
(Ref: Nelson 19th, Pg. 1892) Q 9. Craniotabes is found in children with the following conditions, except: A. Rickets B. Hydrocephalus C. Syphilis D. Kernicterus Ans. is D. Kernicterus
(Ref: Nelson 19th, Pg. 1072)
Previous Year’s Questions of DNB
169
PAEDIATRICS 2002 Q 1. The commonest cause of death in diphtheric child is: A. IIIrd-nerve palsy B. Myocarditis C. Tonsillitis D. Septicemia Ans. is B. Myocarditis
(Ref: IAP textbook of Pediatrics 4th, Pg. 364) Q 2. Best method of diagnosis of childhood HIV: A. CD 4 cell counts B. P24 antigen C. ELISA D. Anti HlV antibody Ans. is B. P24 antigen
(Ref: Nelson 19th, Pg. 1167) Q 3. Hyaline membrane is seen in all of the following conditions, except: A. Radiation pneumonitis B. Viral pneumonitis C. Uremic pneumonitis D. Staphylococcal bronchopneumonia Ans. is D. Staphylococcal bronchopneumonia Q 4. Attainment of weight is a preschool normal child is: A. 2-2.5 Kg B. 3-3.5 Kg C. 4-4.5 Kg D. 5-5.5 Kg Ans. is B. 3-3.5 Kg
(Ref: IAP textbook of Pediatrics 4th, Pg. 84) Q 5. Subacute sclerosing panencephalit is complication of: A. Pneumonia B. Measles
170
Pre-NEET Pediatrics
C. Diphtheria D. Pertussis Ans. is B. Measles
(Ref: Nelson 19th, Pg. 1072) Q 6. Casoni’s test is diagnostic of: A. Echinococcus granulosum B. Toxoplasmosis C. Toxocariasis D. Syphilis Ans. is A. Echinococcus granulosum
PAEDIATRICS 2001 Q 1. A child with diarrhoea has deep and rapid respiration. Diagnosis is: A. Metabolic alkalosis B. Metabolic acidosis C. Respiratory alkalosis D. Respiratory acidosis Ans. is B. Metabolic acidosis
(Ref: Nelson 19th, Pg. 231) Q 2. The percentage rise in length of infant in first year of life is: A. 20% B. 30% C. 40% D. 50% Ans. is D. 50%
(Ref: IAP textbook of paediatrics 4th, Pg. 84) Q 3.The most important cause of under 5 mortality is: A. Diarrhoea B. Malnutrition C. Respiratory infections D. Trauma Ans. is C. Respiratory infections
(Ref: O.P. Ghai 7th, Pg. 350)
Previous Year’s Questions of DNB
171
Q 4. A neonate after 12 hrs. of birth passes black colored meconium. True is: A. Intestinal haemorrhage B. Fibrocystic disease of pancreas C. Normal finding D. Hirschsprung’s disease Ans. is C. Normal finding
(Ref. O.P. Ghai 7th, Pg. 105) Q 5. All of the following are used to assess IUGR, except: A. Fetal movements B. Head size C. Fundus height D. Liquor volume Ans. is A. Fetal movements
(Ref: Avery 8th, Pg. 36) Q 6. Sure sign of CCF in an infant is: A. Basal crepts B. JVP C. Pedal oedema D. Liver enlargement Ans. is D. Liver enlargement
(Ref: O.P. Ghai 7th, Pg. 375) Q 7.Commonest cause of stridor in a new born is: A. Laryngomalacia B. Foreign body C. Meconium aspiration D. Recurrent laryngeal nerve palsy due to birth Ans. is A. Laryngomalacia
(Ref: Nelson 19th, Pg. 1450) Q 8. 15 months old child do all, except: A. Feeds self with spoon B. Says three words C. Builds tower of 2 blocks D. Creeps upstairs Ans. is A. Feeds self with spoon
(Ref: Nelson 19th, Pg. 32)
172
Pre-NEET Pediatrics
Q 9. At what age does a child sees the toy hidden and then again hides it and gives to mother if she asks for: A. 6 months B. 8 months C. 10 months D. 12 months Ans. is D. 12 months
(Ref: Forfar 6th, Pg. 119) Q 10. Commonest nephrotic syndrome in child: A. Minimal change B. Chronic glomerulonephritis C. Hemolytic uremic syndrome D. Congenital Ans. is A. Minimal change
(Ref: Nelson 19th, Pg. 1804) Q 11. Commonest haematological malignancy in children is: A. CLL B. AML C. CML D. ALL Ans. is D. ALL
(Ref: Nelson 19th, Pg. 1732) Q 12. A six years old girl child presents with spotting, no secondary sexual characteristic present. Cause can be: A. Menarche B. Foreign body C. Gonococcal infection D. Haemorrhagic disease Ans. is B. Foreign body
(Ref: For far 6th, Pg. 1152) Q 13. Metabolic acidosis is accompanied with: A. Acetazolamide B. Phenformin
Previous Year’s Questions of DNB
173
C. Verapamil D. Triamterene Ans. is A. Acetazolamide
(Ref: O.P. Ghai 7th, Pg. 55
PAEDIATRICS 2000 Q 1. Not seen in Fallot’s tetralogy: A. ASD B. VSD C. Pulmonary stenosis D. Left ventricular hypertrophy Ans. is A. ASD
(Ref: Nelson 19th, Pg. 1573) Q 2. Congestive heart failure in children is best diagnosed by: A. Tachycardia and tender hepatomegaly B. JVP C. JVP + pedal edema D. Hypotension Ans. is A. Tachycardia and tender hepatomegaly
(Ref: O.P. Ghai 7th, Pg. 375) Q 3. APGAR score of a child born blue with HR 70/ mt. floppy with feeble cry with grimacing on nasal suction is: A. 3 B. 2 C. 4 D. 5 Ans is A. 3
(Ref: Nelson 19th, Pg. 536) Q 4. In Down’s syndrome, following congenital defect is common: A. PDA B. PS