“The child is the father of a man.”
22.1 Few Important Points in Pediatrics
Parents bring in a child with concern for increased crying/irritability, decreased feeding, and playing:
If persistent-something is wrong (pathologic).
If transient (e.g., child gets fussy and irritable for 1 hour and later plays well), it is most likely physiologic. Reassure the parent.
Pay attention to child’s age in the exam question (very important clue).
Sepsis in neonates can present with hypothermia (≤ 36 °C) and/or jaundice. In adults, jaundice as a presentation of sepsis is uncommon.
Heart rate (HR) and respiratory rate (RR): Resting HR and RR of newborns can be as high as 190 and 60, respectively.
Resting HR and RR decrease as children get older. Be careful in interpreting tachycardia or tachypnea as a sign of sepsis, dehydration, or respiratory distress in newborns and children. Look for other danger signs.
22.2 Newborn Assessment
Immediately after delivery, the first step is to calculate the APGAR score. Calculate it again 5 minutes after delivery.
Fontanels are space between the bones of the skull in an infant or fetus , where ossification is not complete and the sutures are not fully formed.
22.3 Neonatal Resuscitation
aRemember the exact sequence of initial steps of neonatal resuscitation.
bHR < 100/min is an indicator of decreased cardiac output in neonates.
cIt is a great IV access in neonates.
dSee next page for differential Diagnosis of Respiratory Distress in a Newborn (nasal flaring, grunting, tachypnea, and hypoxemia).
22.3.1 Routine Care in All Newborns (Within the First Few Hours of Birth)
Topical antibiotic to the eyes (e.g., erythromycin or silver nitrate solution) to prevent gonococcal or chlamydial conjunctivitis.
IM vitamin K—to prevent bleeding.
Screening for hypothyroidism and other congenital conditions.
Consider Hep B vaccination. Infant of mother with positive HBsAg (Hep B virus surface antigen) should also receive Hep B immunoglobulin.
Note: Normal respiratory rate is 30-60/min in neonates.
22.5 Pathologic Conditions More Commonly Seen in Preterm (Born before 37 Weeks of Gestation) and Low-Birth-Weight Infants (< 3.3 lbs or < 1,500 g)
Preterm and small for gestational age infants also have increased risk of the following conditions:
In preterm infants (<34 weeks gestation age), antenatal corticosteroid therapy has been shown to reduce the incidence of respiratory distress syndrome, intraventricular hemorrhage, necrotizing enterocolitis, sepsis, and neonatal mortality by approximately 50 percent.
22.6 Infant Feeding
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aRecent studies show that maternal supplementation of vitamin D in recommended dosages will obviate the need for infant supplementation. | |
22.8 Sudden Infant Death Syndrome (SIDS)
Background: Unexplained sudden death of an infant (i.e., < 1-year-old). Postmortem exam may reveal unexplained intrathoracic petechiae or mild pulmonary edema.
Risk factors: The most important risk factor is prone sleeping (sleeping on stomach). Other risk factors include siblings of infants who died from SIDS, prematurity, low birth weight, and exposure to cigarette smoke.
Best method for prevention: Sleeping in supine position (placing the infant on the back).
22.10 Developmental Milestones
The MRS in this table might sound a little too stretched out, but give it a try and see if it helps remembering this high-yield topic. If not create your own.
3. A mother brings in her 13-month child for a routine check-up. The baby can say simple words like “mama” and “ta-ta.” She can walk alone a few steps and is able to throw a ball. What is the likely developmental assessment in this child?
4. Delia can draw a circle, Maya can draw a square, and Akbar can draw a triangle. How old are they?
22.11 Pediatric Vaccination
First dosea | |||||||||
DTaPb | |||||||||
Third dosec | |||||||||
Third dosed | |||||||||
First dose (given between 1 and 2 years of age) e | |||||||||
aIn preterm babies, age count starts from the day of birth. Give vaccination as above, starting from birth. The only exception is to hold Hep B vaccine if baby’s weight is < 2 kg or <4.4 lbs. | |||||||||
bDTaP is stronger than TDaP. DTaP is used for primary vaccination in children < 10 years of age, whereas TDaP is given as booster dose in adolescents and adults. | |||||||||
cThere are two types of vaccines available for rotavirus. One type needs only two doses; the other one, three doses. | |||||||||
dThere are two types of commercial vaccines available for Haemophilus. The second type does not need re-dosing at 6 months. | |||||||||
eTwo doses are needed for lasting protection. The second dose can be given 6 to 18 months after the first dose. | |||||||||
Additional vaccination: Influenza is given yearly after 6 months of age. Children 6 months to 8 years of age who are receiving flu vaccination for the first time in their life, require 2 doses of vaccine in that single season to optimize response.
☺ DR HIP is given at 2, 4, and 6 months-DTaP, RV, HiB, IPV, PCV.
☺ At 12-15 months: ☺ 1-year old CHAMP: Chicken pox, HiB, A = Hep A virus, MMR, PCV-13.
☺ Whichever alphabets of DR HIP are included in CHAMP are booster doses. That means HP are the booster doses given at 12-15 months.
☺ 4-6 years (5 ± 1): ☺ MeDIC is given at 5 years = MEasles-mumps-rubella, DTaP, IPV, Chicken pox. MeDIC has 5 letters.
☺ Live vaccines are LIVE CRIME = CRIME = Chicken pox, Rotavirus, Influenza-live-attenuated type, MMR, and lastly for E (just a random fact that you might not need) Epidemic typhus.
22.11.1 Contraindications to Vaccines
Vaccinations are life-saving. Outside of the information mentioned above, it might be safe to say that there are NO other contraindications.
Per CDC, even development of Guillain-Barre syndrome after vaccination is not a contraindication but requires caution in the future.
22.12 Pediatric Cardiology
22.12.1 Congenital Heart Disease
22.12.2 Acyanotic Congenital Heart Defects (VSD, ASD, PDA)
These conditions can have the following common features:
Small defects can be asymptomatic and sometimes are detected incidentally in adults.
Larger defects can present with heart failure (increased RR, dyspnea, and feeding difficulty), which may manifest at birth (very large defects) or few months later (moderate-sized defects).
Development of right-to-left shunt can occur later in life, due to development of the following pathology: increased pulmonary artery blood flow pulmonary hypertension (loud pulmonic S2) increased right heart pressure RV (right ventricle) hypertrophy. Pressure generated by hypertrophied right heart + increased pulmonary pressure leads to right-sided pressure becoming greater than on the left side, resulting in right-to-left shunt and development of cyanosis. This is called Eisenmenger syndrome and it usually develops later.3
Present at birth in all neonates. After birth, rise in neonatal blood oxygen levels signals ductus closure.
Neonatal hypoxemia increases risk of PDA. Premature babies have increased risk of hypoxemia, hence premature infants have increased risk of PDA.
It is also more common in females than males.
PDA is associated with maternal rubella infection.
When Eisenmenger syndrome develops in PDA, postductal circulation starts receiving mixed blood, which results in differential cyanosis (lower body is cyanotic, toes develop clubbing, whereas upper body remains unaffected).
Closure of mitral and tricuspid valve causes blood flow disruption leading to vibration or sound heard as S1. | |
Due to closure of aortic and pulmonic valves |
Ruby wears PADS = congenital Rubella infection is associated with PDA.
Ruby is a female, so PDA is more common in females.
• Prostaglandins keep the PDA Patent. Ibuprofen, by decreasing prostaglandin production, promotes closure of PDA.
Differential cyanosis can also occur with preductal coarctation and coexistent PDA. In this case the differential cyanosis is early-onset as it does not require development of Eisenmenger syndrome (area distal to coarctation may have lower pressures than pulmonary circulation leading to right-to-left shunt).
22.12.3 Cyanotic Congenital Heart Defects
Pulmonary vascular markingsa | |||
Transposition of great vessels Aorta originates from the right ventricle and pulmonary artery from the left ventricle. Blood mixing occurs with VSD, ASD, and/or PDA | “Egg-on-a-string” sign: egg = heart and string = narrow mediastinum | ||
• Pulmonary artery and aorta are abnormally merged to form a big outflow tract that gets blood from both the ventricles. | Single S2—with ejection systolic murmur due to increased flow | Increased pulmonary vascular markings. Reason: In the normal state, RV (right ventricle) has much lower pressure than LV (left ventricle). In this case both RV and LV have equal pressure, with more than usual blood flowing through RV. | |
aNote the conditions that have increased pulmonary vascular markings versus the ones that do not. | |||
bTOF and TVA may have some common features. To differentiate TOF from TVA, look at the axis on EKG: there is right-axis deviation in TOF and left-axis deviation in TVA ( see next page discussion on how to determine axis in EKG). | |||
cTo be compatible with life, most neonatal cyanotic heart diseases (e.g., transposition of great vessels, TAPV, TVA, hypoplastic left heart) require PDA or ASD (in some cases VSD) to supply systemic circulation. These conditions may become acutely symptomatic after 2-3 days, when ductus arteriosus normally closes. Prostaglandin infusion (PGE1) can be used to keep the PDA patent until definitive surgical correction. | |||
22.12.4 Coarctation of the Aorta
Pathophysiology: Narrowing of the aorta, due to thickening of tunica media near the ductus arteriosus. It is often associated with other heart defects such as ASD, VSD, PDA, and/or bicuspid aortic valve.
To know the axis, look at the first and third lead
When both are up, then thumbs up for both, meaning axis is normal.
When only lead I is up, your left hand is up, and axis is tilted to left side = left-axis deviation. Note: when you write 1, 2, 3, 4, …, 1 is always written in the left side, and 3 is always written in the right.
When lead III is up, your right hand will be up = right-axis deviation.
6Preductal coarctation means location of coarctation is proximal to ductus arteriosus.
Increased pressure in intercostal arteries, leads to pressure atrophy of posterior ribs and rib notching (it takes time to develop this, hence not seen in infants).
NSIDx: Transthoracic echocardiogram
Management: For significant stenosis, do surgical repair or percutaneous angioplasty.
7. A 6-month-old male baby is brought in for a routine check-up. As soon as you put the stethoscope on the baby’s chest he starts crying, breathes rapidly, and begins to turn a dusky blue color. In addition to oxygen, which of the following will rapidly alleviate these symptoms?
8. You are examining a newborn male baby just after delivery. His entire trunk is blue. He has a pulse rate of 90, grimaces with some activity. His respirations are irregular with an oxygen saturation of 80%. He ends up requiring intubation. On auscultation you hear a single loud S2 and a harsh murmur in the left lower sternal border. What is the baby’s APGAR score and the likely diagnosis?
22.14 Pediatric Gastroenterology
22.14.2 Causes of Gastrointestinal Obstruction in Pediatrics
aGI obstruction before ampulla of Vater (point of entry for bile duct) does not present with bilious vomiting (e.g., congenital or acquired pyloric stenosis).
bWith increased loss of gastric acid (H+Cl–), there is metabolic alkalosis (high serum bicarbonate) with compensatory respiratory acidosis. Also look for low serum chloride.
cAll other conditions listed in the table can be differentiated from Hirschsprung disease by looking at colonic air. Hirschsprung has increased colonic air. If colonic air is absent, it is not Hirschsprung.
dUS of abdomen can be used to differentiate in between them. Images of dilated bowel loops in meconium ileus are filled with echogenic material, while the loops in atresia are fluid-filled.
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