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P74 Paediatrics Toronto Notes 2023
AUTOIMMUNE THROMBOCYTOPENIA
Pathophysiology
• caused by antiplatelet antibodies from maternal ITP or SLE
• passive transfer of anti-platelet antibodies across placenta
Clinical Features
• similar presentation to neonatal alloimmune thrombocytopenia, but thrombocytopenia is usually less
severe and does not tend to cause bleeding
Treatment
• steroids to mother for 10-14 d prior to delivery or I VIg to mother before delivery
• treat neonate with 1Vlg (usually if platelets <50000 or in the unlikely event of bleeding);otherwise
close monitoring for platelet recovery,bleeding
• transfusion of infant with maternal/donor platelets only in severe cases, as antibodies will destroy
transfused platelets
VITAMIN K DEFICIENCY BLEEDING
. see Vitamin K Deficiency, P52
Bronchopulmonary Dysplasia
Definition
. also known as chronic lung disease
• clinically defined as O:requirement for >28 d plus persistent need for oxygen and/or ventilatory
support at 36 wk corrected GA
• damage to developing lungs with prolonged intubation/ventilation, high levels O’
,infections
Investigations
• CXR findings may demonstrate decreased lung volumes, areas of atelectasis,signs of inflammation,
and hyperinflation
Treatment
• no clearly effective treatments
• gradual wean from ventilator, optimize nutrition
• dexamethasone may help decrease inflammation and encourage weaning, but use ofdexamelhasone
is associated with increased risk of adverse neurodevelopmental outcomes
Prognosis
• chronic respiratory failure may lead to pulmonary HTN, poor growth, and right-sided heart failure
• patients with bronchopulmonary dysplasia may continue to have significant impairment and
deterioration in lung function late into adolescence
• some lung abnormalities may persist into adulthood including airway obstruction, airway hyperreactivity, and emphysema
• associated with increased risk of adverse neurodevelopmental outcomes
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P75 Paediatrics Toronto Notes 2023
Cyanosis
Cyanosis
I
r
Peripheral li e - I
'
-
1
1 I I 1
Transient (typical) Sepsis or Deoxygenated
temperature hemoglobin
instability |
Abnormal hemoglobin
I
; T
Cardiovascular
*
(CHD,PPHN)
Respiratory Hematologic Sepsis Methemoglobinemia Carboxyhemoglobinemia
(polycythemia)
Neurologic
1
T I
Lower
(pneumonia,
macroglossia, airway MAS,
hypoplasia,laryngeal pneumothorax,
web/cyst, diaphragmatic hernia,
foreign body) hypoplasia)
Figure 14. Approach to neonatal cyanosis
CNS(asphyxia,
hemorrhage,
seizure,
opioids/sedatives)
Neuromuscular
(myasthenia gravis,
botulism)
Upper
(choanal atresia,
Management
•ABCis
elevated CO2 suggests respiratory cause
hyperoxia test (to distinguish between cardiac and respiratory causes of cyanosis): get baseline
Pa02 in room air, then Pa02 on 100% 02 for 10-15 min
Pa()2 < 150 mmHg: suggests cyanotic CHD or possible PPHN (see Cardiology and Cardiac
Suruerv. 09)
Pa02 >150 mmHg:suggests cyanosislikely due to respiratory or non-cardiac cause
•CXR:look for respiratory abnormalities (pneumothorax, respiratory tract malformations, evidence of
shunting, pulmonary infiltrates) and cardiac abnormalities (cardiomegaly, abnormalities of the great
vessels)
Diaphragmatic Hernia
•see General and Thoracic Surgery. CiS73
Definition
•developmental defect of the diaphragm with herniation of abdominal organs into thorax
•associated with pulmonary hypoplasia and PPHN
Clinical Features
•respiratory distress, cyanosis
•scaphoid abdomen and barrel-shaped chest
•affected side dull to percussion and breath sounds absent, may hear bowel sounds instead
•heart sounds shifted to contralateral side, if left sided diaphragmatic hernia
•asymmetric chest movements, trachea deviated away from affected side
•may present outside of neonatal period
•often associated with other anomalies (cardiovascular, neural tube defects, chromosomal
abnormalities)
•CXR for diagnosis
•CXR: bowel loops in thorax (usually left side), displaced mediastinum
Treatment
•immediate intubation required at birth: DO NOT bag mask ventilate because air will enter stomach
and further compress lungs
•place large bore orogastric tube to decompress bowel
•initial stabilization and management of pulmonary hypoplasia and PPHN if present, hemodynamic
support and surgery when stable j
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P76 Paediatrics Toronto Notes 2023
Hypoglycemia
Definition
• glucose <2.6 mmol/L within 72 h of birth OR <3.3 mmol/ L after first 72 h of life
Etiology
• decreased carbohydrate stores: premature, SGA, RDS, maternal HT'
N
• endocrine: hormonal deficiencies (GH, cortisol, epinephrine),insulin excess (infant of diabetic
mother, LGA,Beckwith-YViedemann syndrome/islet cell hyperplasia), hypothalamic-pituitary-adrenal
axis suppression (panhypopituitarism)
• inborn errors of metabolism:fatty acid oxidation defects, galactosemia
• miscellaneous:sepsis, hypothermia, polycythemia, perinatal stress(e.g. asphyxia)
Clinical Findings
• signs often non-specific and subtle:lethargy, poor feeding, irritability, tremors, apnea, cyanosis,
seizures
Management
• identify and monitor infants at risk (pre-feed blood glucose checks) until blood glucose stable and for
at least 12 h (for infant of diabetic mother or LGA) or 36 h (if preterm or SGA)
• in a well at-risk infant, begin oral feeds as soon as possible after birth and ensure regular feeds, check
glucose at 2 h of age
• if significant and/orsymptomatic hypoglycemia, provide glucose IV (D10YV ) and titrate according to
blood sugar levels
• if persistent hypoglycemia (>48 h of life), prolonged glucose IV,severe symptomatic hypoglycemia
(coma, lethargy,seizure), or no predisposing cause,send “critical blood work* during an episode of
hypoglycemia: ABG, ammonia, p-hydroxybutyrate,cortisol, free fatty acids, GH, insulin, lactate,
urine dipstick for ketones
Neonatal Hyperbilirubinemia
Definition
• total serum bilirubin >95th percentile (high-risk zone) on Bhutani nomogram in infants >35 wk GA
Clinical Features
• jaundice typically visible at serum bilirubin levels of 85-120 pmol/L
• visual assessment is misleading, confirm jaundice with blood test
Hyperbilirubinemia
Jaundice is very common - 60N of term
T newborns develop visible jaundice Unconjuyated Conjugated
1
t 1
Pathologic Physiologic Always pathologic
Jaundice in the first 24 h of life and
conjugated hyperbilirubinemia are
always pathological
1 1
Non-Hemolytic
Hematoma
(cephalohematoma)
Polycythemia
Sepsis
Hypothyroidism
Gilbert syndrome
Crigler-Najjar
Hemolytic Hepatic
Infectious
Sepsis
Hep B, TORCH
Metabolic
Galactosemia
Tyrosinemia
a- 1-antitrypsin deliciency
Hypothyroidism
Post-Hepatic
Biliary atresia
Choledochal cyst £
Intrinsic
Membrane
Spherocytosis
Elliptocytosis
Enzyme
G6PD deliciency
PK deficiency
Hemoglobin
Thalassemia
Extrinsic
Immune
ABO incompatability
Rh incompatability
Kell, Dully, etc.
Non-immune
Splenomegaly
Sepsis
AVM
Jaundice must be investigated if:
• It occurs within 24 h of birth
• Conjugated hyperbilirubinemia is
present
• Unconjugated bilirubin rises rapidly
or is excessive for patient's age and
weight
• Persistent jaundice lasts beyond 1-2
wk of life
CF
Drugs
TPN
Idiopathic neonatal hepatitis
Figure 15. Approach to neonatal hyperbilirubinemia
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PHYSIOLOGIC JAUNDICE
Epidemiology
• term infants: onset 3-4 d of life, resolution by 10 d of life
• premature infants: higher peak and longer duration
Pathophysiology
• increased hematocrit and decreased RBC lifespan
• immature glucuronvl transferase enzyme system (slow conjugation of bilirubin)
• increased enterohepatic circulation
Breastfeeding Jaundice
• common: due to a lack of milk production -> dehydration > exaggerated physiologic jaundice
Breast Milk Jaundice
• I in 200 breastfed infants
• glucuronyl transferase inhibitor found in breast milk
• onset 7 d of life, peak at 2-3 wk of life, usually resolved by 6 wk
Table 34. Risk Factors for Jaundice
Maternal Factors Perinatal Factors Neonatal Factors
Ethnic group|e.g. Asian, Indigenous) Birth trauma (cephalohematoma.
ecchymoses)
Complications during pregnancy (infant of Prematurity
diabetic mother. Rh or ABO incompatibility)
Breastfeeding
FMHx/previous child required phototherapy
Difficulty establishing breastfeeding
Infection (sepsis,hepatitis)
Genetic factors
Polycythemia
Drugs
TPK
Table 35. Causes of Neonatal Jaundice by Age
<24 h 24-72 h 72-96 h Prolonged (>1wk)
ALWAYSPATHOLOGIC
Hemolytic
Physiologic,polycythemia
Dehydration
(breastfeeding jaundice)
Hemolysis
G6PD deficiency
Pyruvate kinase deficiency
Spherocytosis
Bruising,hemorrhage,
hematoma
Sepsis/congenital infection
Physiologic * breastfeeding
Sepsis
Breast milk jaundice
Prolonged physiologic jaundice
in preterm
Hypothyroidism
Neonatal hepatitis
Conjugation dysfunction
c.g. Gilbert syndrome.
Crigler-Najjar syndrome
Inborn errors of metabolism
e.g. galactosemia
Biliary tract obstruction
e.g. biliary atresia
Rh or ABO incompatibility
Sepsis
Congenital infection (TORCH)
Severe bruising/hemorrhage
PATHOLOGIC JAUNDICE
• all cases of conjugated hyperbilirubinemia;some cases of unconjugated hyperbilirubinemia are
pathologic
Investigations
• unconjugated hyperbilirubinemia
« hemolytic workup:CBC, reticulocyte count, blood group (mother and infant), peripheral blood
smear,Coombs test ( DAT)
• if babv is unwell or has fever:septic workup (CBC and differential, blood and urine cultures ± LP,
CXR)
other:G6PD screen (especially in males), TSH
• conjugated hyperbilirubinemia must be investigated without delay
• consider liver enzymes(AST, ALT), coagulation studies (FT, P I T'
),serum albumin, ammonia,
ISH, TORCH screen,septic workup, galactosemia screen (erythrocyte galactose-1-phosphate
uridyltransferase levels), metabolic screen, abdominal U/S, H1DA scan,sweat chloride
• predicting occurrence ofsevere hyperbilirubinemia
measure either total serum bilirubin (TSB) or transcutaneous bilirubin (TcB) concentration in
all infants between 24 h and 72 h of life and plot on appropriate hyperbilirubinemia treatment
graph. If infant does not require immediate treatment, resultsshould be plotted on predictive
nomogram to determine the risk of progression to severe hyperbilirubinemia and need for repeat
measurement (refer to: http://www.cps.ca/documents/position/hyperbilirubinemia-newborn)
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TREATMENT OF UNCONJUGATED HYPERBILIRUBINEMIA
• to prevent kernicterus
• breastfeeding does not usually need to be discontinued, ensure adequate feeds and hydration
• lactation consultantsupport, mother to pump after feeds
• treat underlying causes (e.g. sepsis)
• phototherapy (blue-green wavelength, not U V light);standard intensive or multiple intensive protocol
depending on severity of hyperbilirubinemia
insoluble unconjugated bilirubin is converted to excretable form via photoisomerization
serum bilirubin should be monitored during and immediately after therapy (risk of rebound
because photoisomerization is reversible when phototherapy is discontinued)
contraindicated in conjugated hyperbilirubinemia; results in “bronzed'
baby
side effects:skin rash, diarrhea, eye damage (eye shield used routinely for prevention),
dehydration
use published guidelines and nomogram (see Figure 16) to determine appropriateness of
phototherapy by stratifying infant risk and assessing if total scrum bilirubin level is above cutoff
for respective gestational age
• exchange transfusion
indications: high bilirubin levels as per published graphs based on age, wk gestation
most commonly performed for hemolytic disease and severe cases of G6PD deficiency
use of I Vlg in case ofsevere hyperbilirubinemia (DAT+) becoming evidence-based practice
“Bronzed” Baby in Infants with
Conjugated Hyperbilirubinemia
Phototherapy results In the production
and accumulation of a lode metabolite
which also imparts a bronze hue on the
baby's skin
/Toni SxumR'
iudt
*
povl >
P
Age
— Intents atlower nsk (>38wk and well
- - Inter.ts at medium risk ( 28wk -t- risk factors or
3M/ V/ wt and well)
^—Intents at higher risk|3»3/VI wk nsk factors)
j
Figure 16. Gold standard in deciding
when to initiate phototherapy for
unconjugated hyperbilirubinemia
Licence number: 4601410094382
KERNICTERUS
Etiology
• unconjugated bilirubin concentrations exceed albumin binding capacity and bilirubin is deposited in
the brain resulting in tissue necrosis and permanent damage (typically basal ganglia or brainstem)
• incidence increases as serum bilirubin levels increase above 340 pmol/ L
• can occur at lower levels in presence ofsepsis, meningitis, hemolysis, hypoxia, acidosis, hypothermia,
hypoglycemia, and prematurity
Clinical Features
• up to 15% of infants have no obvious neurologic symptoms
• early stage:lethargy, hypotonia, poor feeding, emesis (acute bilirubin encephalopathy)
• mid stage: hypertonia, high pitched cry,opisthotonic posturing (back arching), bulging fontanelle,
seizures, pulmonary hemorrhage
• late stage (during first year and beyond): hypotonia,delayed motor skills, extrapyramidal
abnormalities (choreoathetoid CP), gaze palsy, mitral regurgitation,sensorineural hearing loss
Prevention
• exchange transfusion,1Vlg if indicated
BILIARY ATRESIA
Definition
• atresia of the extrahepatic bile ducts which leads to cholestasis and increased conjugated bilirubin
after the first wk of life
• progressive obliterative cholangiopathy
Epidemiology
. incidence: I in 10000-15000 live births
• associated anomalies in 10-35% of cases:situs inversus, congenital heart defects, polysplenia
Clinical Features
• dark urine, pale stool, jaundice (persisting for >2 wk), abdominal distension,hepatomegaly
Diagnosis
• conjugated hyperbilirubinemia, abdominal U/S, operative cholangiogram
• HIDA scan (may be bypassed in favour of biopsy if timing of diagnosis is critical)
• liver biopsy
Treatment
• surgical drainage procedure
• hepatoportoenterostomy ( Kasai procedure; most successful if age <8 wk)
• two-thirds will eventually require liver transplantation
• vitamins A,D, E, and K; dietshould be enriched with medium-chain triglycerides to ensure adequate
fat ingestion
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Necrotizing Enterocolitis
Influence ol EnteralMutrition on Occurrences
of Recrotizing Enterocolitisin Very-tow BirtliIfcight Infants
J Pedatr Gastroenterol Nutr 2015:61(4):445 450
Study:Case-controlstudy of wry-low-birth-weiglit
(VlBI)nlantsand occurrences of HECwrtlr in 30
dotMi.
Population:1028 VLBW infantsin neonatal intensive
care unit Jan 2003-Hay 2008.
Primary Outcome: NEC defined using stage >2 of
modified Bell criteria.
Resmlts:55 infantsdeveloped MEC with in 30 d of life
(5 4%) lltose mtii NEC had higher odds ol having
been fed breast milk <7 d (OS:4.02|, not harmg
achieved full enteralfeeding during the first oin (OR:
3.S0).and having had parenteral feeding (Of: 2.10).
Conclusions Occurience ol NEC can be reduced
with breast nilk feeding beyond 7d and early full
enteralfeeding.
Definition
• intestinal inflammation associated with focal or diffuse ulceration and necrosis
• primarily affecting terminal ileum and colon
Epidemiology
• affects 1 -5% of preterm newborns admitted to NICU
Pathophysiology
• postulated mechanism of bowel ischemia: mucosal damage and enteral feeding > bacterial growth >
bowel necrosis/gangrene/perforation
Risk Factors
• prematurity (immature defenses)
• asphyxia,shock (poor bowel perfusion)
• hyperosmolar feeds
• enteral feeding with formula (breast milk can be protective)
• sepsis
Clinical Features
• usually presents at age 2-3 wk
• distended abdomen, diminished bowel sounds, feeding intolerance
• increased amount of gastric aspirate/vomitus with bile staining
• frank or occult blood in stool
• signs of bowel perforation (sepsis,shock, peritonitis, DIC)
Investigations
• AXR: pneumatosis intestinalis (intramural air is a hallmark of NEC),free air, fixed loops, ileus,
thickened bowel wall, portal venous gas
CBC, ABG,lactate, blood culture,electrolytes
• high or low WBC, low platelets, hyponatremia, acidosis, hypoxia, hypercapnia
Treatment
• NPO (7-10 d), vigorous IV fluid resuscitation, decompression with NG tube,supportive therapy
. TPN
• antibiotics(usually ampicillin, gentamicin ± metronidazole if risk of perforation x 7-10 d)
• serial AXRs detect early perforation (40% mortality in perforated NEC)
• peritoneal drain/surgery if perforation
• surgical resection of necrotic bowel and surgery for complications(e.g. perforation,strictures)
Persistent Pulmonary Hypertension of the Newborn
Definition
• persistence of fetal circulation as a result of persistent elevation of pulmonary vascular resistance
• classified as primary (absence of risk factors) orsecondary
Epidemiology
• incidence 1.9 in 1000 live births
Clinical Features
• usually presents within 12 h of birth with severe hypoxemia/cyanosis;some may have only mild
respiratory distress
Pathophysiology
• elevated pulmonary pressures cause R -> L shunt through PDA,foramen ovale -> decreased pulmonary
blood flow and hypoxemia -> further pulmonary vasoconstriction
Risk Factors
• secondary PPHN: asphyxia, meconium aspiration syndrome, RDS,sepsis, pneumonia,structural
abnormalities(e.g.diaphragmatic hernia, pulmonary hypoplasia)
• more common in term or post-term infants
Investigations
• measure pre- and post-ductal oxygen levels
• hyperoxia test to exclude CHD
. EGG (RV strain)
• echo reveals increased pulmonary arterial pressure and a R -> L shunt across PDA and patent foramen
ovale; also used to rule out other cardiac defects
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Treatment
• maintain good oxygenation (SaO * >95%) inat-risk infants
• 02 given early and tapered slowly,minimize stress and metabolic demands,maintain normalblood
gases, circulatory support
• mechanical ventilation,high frequency oscillation in a sedated muscle-relaxed infant
• nitric oxide, surfactant
• extracorporeal membrane oxygenation used in some centres when other therapy fails
Respiratory Distress in the Newborn
Clinical Features
• tachypnea:RR >60/min;tachycardia:HR >160/min
• grunting, subcostal/intercostal indrawing, nasal flaring
• duskiness,central cyanosis
• decreased air entry, crackles on auscultation
Differential Diagnosis of Respiratory Distress
• see Table 33 under S'eonatal Resuscitation, P72
Investigations
• labs: CBC,blood gas,glucose,blood culture
• imaging:CXR
• ifindicated: ECG, echo, LP (CSF cell count, culture,and chemistry)
Table 36. Distinguishing Features of RDS, TTN, MAS
RDS TTN MAS
Etiology Surfactant deficiency *
pool lung
compliance due to high alveolar surface fluid •»accumulation offluid in
tension -» atelectasis -»
*
surface area for gas exchange
*
hypoxia acidosis *
respiratory
distress
“Hyaline membrane disease*
Preterm
Maternal DM
Preterm delivery
Male sex
Delayed resorption of fetal lung Meconium is sterile but causes airway
obstruction,chemical inflammation,and
peribronchial lymphatiesand surfactant inactivation leading lochemical
vascular spaces <
*
tachypnea pneumonitis
"Wet lung syndrome"
Gestational Age
Risk Factors
Term and post-term
Meconium-stained amniotic fluid
Post- term delivery
Usually term and late preterm
Maternal DM
Maternal asthma
Male sex
Macrosomia (> 4500 g)
Elective Cesarean section or
short labour
late preterm delivery
Clinical Features Respiratory distress within first few Tachypnea within the first few
hours ol life,worsens over next 24-72 It hours of tile tretractions.
Hypoxia
Cyanosis
CXR Findings Homogenous infiltrates
Airbronchograms
Decreased lung volumes
May resemble pneumonia|GBS)
If severe,"white-out" withno
differentiation of cardiac border
Prenatal corticosteroids (e.g.
Celcstone 12 mg q24 h x 2 doses)il
risk of preterm delivery
*
34 wk
Monitor lecilhin:spliingomyehn IT'S)
ratio with amniocentesis,L/S >2:1
indicates lung maturity
Resuscitation
Oxygen
Ventilation
Surfactant (decreases alveolar surface IV fluids and HG lube feeds if too
tension,improves lung compliance,and tachypneic to feed orally
maintains functional residual capacity)
IBW
Acidosis,sepsis
Hypothermia
Second born twin
Respiratory distress within houis ol birth
Small airway obstruction, chemical pneumonitis
tachypnea,barrel chest with audible crackles
Hypoxia
Hyperinflation
Patchy atelectasis
Patchy and coarse Infillralcs
10- 20% have pneumothorax
grunting,nasal flaring
Often HO hypoxia or cyanosis
Perihilar infiltrates
"Wet silhouette;" fluid in
fissures
Prevention Where possible,avoidance of
elective Cesarean delivery,
particularly before 38 wkGA
If infant isdepressed at birth,intubate and
suction below vocal cords
Avoidance of factors associated within utero
passage of meconium (e.g.post-term delivery)
Supportive
Oxygen if hypoxic
Ventilator support|e.g. CPAP)
Resuscitation
Oxygen
Ventilatory support
Surfactant
Inhaled nitric oxide
Extracorporeal membrane oxygenation for
PPHN
Hypoxemia
Hypercapnia
Acidosis
PPHN
Pneumothorax
Pneumomediastinum
Chemical pneumonitis
Secondary surfactant inhibition
Respiratory failure
Dependent on severity,mortality up to 20%
Treatment
Complications In severe prematurity and/or Hypoxemia
prolonged ventilation, increased risk of Hypercapnia
bronchopulmonary dysplasia Acidosis
PPHN r1
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Prognosis Dependent on GA at birth and severity Recovery usually expected in
of underlying lung disease:long-term 24-72h
risks of chronic lung disease
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P81 Paediatrics Toronto Notes 2023
PNEUMONIA
• see Respirolog)'
, P93
• consider in infants with prolonged (>18 h) or premature rupture of membranes, maternal fever or
other signs and symptoms of chorioamnionitis, or if mother is GBS positive
• suspect if infant exhibits respiratory distress, temperature instability,or WBC islow (<5
elevated (>30 x 109/L),or left-shifted
• symptoms may be non-specific (e.g. lethargy, apnea, tachycardia, poor perfusion, poor feeding)
• investigations: CXR (hazy lung and/or distinct infiltrates, may be difficult to differentiate from KDS),
blood and CSF cultures
• neonates with pneumonia should be admitted to the NICU and given empiric antibioticsfor
management
x 109/L),
Retinopathy of Prematurity
• see Ophthalmology.OP40
Sepsis in the Neonate
Table 37. Sepsis Considerations in the Neonate (Sfy
Chronic Perinatal Infections Early Onset (<72 h) Late Onset (72 h • 28 d)
Acquired after birth CHEAP TORCHES
Risk factors:preterm infants in NICU
Pathogens:coagulase-negaliveStaphylococcus most common,
GBS.anaerobes,E.coli,Klebsiella
Vertical transmission,95%present within 24 halter birth
Risk factors:
Maternal infection:UTI,GBS positive,previous child with GBS,
sepsis,or meningitis
Maternal fever/leukocytosis/chorioamnionitis
Prolonged rupture of membranes|»18h)
Preterm labour
Pathogens:GBS,E.coli,Listeriaare most common
Pneumonia morecommon withearly-onset sepsis
Chicken pox/shingles
Hepatitis B/C/D/E
Enteroviruses
AIDS (HIV)
Parvovirus B19 (erythema infectiosum)
Toxoplasmosis
Other
Rubella virus
Cytomegalovirus/Coxsackievirus
Hb .
Clinical Features
• no reliable absolute indicator of occult bacteremia in infants <3 mo, most specific result has been
WBC<5
*
10 "
/ 1.
• temperature instability (hypo/hyperthermia)
• respiratory distress, cyanosis, apnea
• tachycardia/bradycardia
• lethargy,irritability
• poorfeeding, vomiting,abdominal distension, diarrhea
• hypotonia,seizures,lethargy
• jaundice, hepatomegaly, petechiae, purpura
Investigations
• suspicion of neonatal sepsis requires "full septic workup"
CBC, blood and urine cultures, LP (CSI:
analysis: cell count, glucose, protein, culture, and PCR for
viruses) ± CXR
LP must be conducted if blood culture is positive due to increased risk of meningitis
Management
• supportive care
• IV antibiotics:typically ampicillin + cefotaxime or ampicillin + gentamicin chosen asfirst-line
empiric therapy
• choice of antibiotic and duration of treatment dependent on symptoms, culture results, maternal GBS
status, and local resistance patterns
• if meningitissuspected, consider IV ampicillin + cefotaxime ± vancomycin at meningitic doses
• addition of IV acyclovir if HSV infection suspected
Eveiy STI
Syphilis
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P82 Paediatrics Toronto Notes 2023
Skin Conditions of the Neonate
Table 38. Common Neonatal Skin Conditions
Neonatal Skin Condition Description
Vasomotor Response Iransienlmottling when exposed tocold:usually normal, particulaity il premature
(Cutis Marmorata, Acrocyanosis)
VernixCaseosa
Congenital DermalMelanocytosis
Soft,creamy, white layer covering baby at birth
Sidle gicy patches over lower back, bullocks,and lower limbs (may look like bruises):prevalence
varies with ethnicity (Asian * Black *
Hispanic
’
While): typically lades within first 2 yr of life
Capillary Hemangioma Raised red lesion,which increases in sire after birth and involutes:SONresolved by S yr.90% by
9 yr
Erythema loxicum Neonatorum Yellow-while papules/pustules surrounded by erythema,eosinophils within the lesions:common
rash,resolves in 5-7 d
12 mm lirm while pearly papules on nasal bridge,cheeks,and palate: sell-resolves within llrsl few
weeks of life
Hyperpigmented macular base withpustules,seen more commonly inBlack infants:maybe present
at birth:no treatment needed
Transient macular vascular malformation olthe eyelids and/or neck (“Angel Kiss" or "Stork Bile"):
most lesions disappear by1yr
Inflammatory papules and pustules mainly on face:sell-resolving usually within 4 mo
Milia
Transient Pustular Melanosis
Nevus Simplex (SalmonPatch)
Neonatal Acne
Nephrology
Common Paediatric Renal Diseases
Table 39. Common Manifestations of Renal Disease
Age Symptoms Common Causes
flank Mass Hydronephrosis,polycystic disease lautosomal dominant or recessive subtypes),tumour
Renal vein thrombosis,asphyxia,mallormallon, trauma
Neonate
Hematuria
Anuria/Oliguria Bilateral renal agenesis,obstruction,asphyxia
Child and
Adolescent
Cola/Red Coloured Urine Acute GN (e.g. post streptococcal.HSP.IgA nephropathy, etc.),hemoglobinuria (hemolysis),
myoglobinuria (rhabdornyolysls)
Gross Hematuria Utologic disease (e.g. nephrolithiasis,trauma, etc.),till,acute GN
Edema Nephrotic syndrome,nephritis,acute/chronic renal failure,consider cardiac or liver disease
Hypertension GN. renal failure,dysplasia (consider coarctation,drugs,endocrine causes)
Polyuria DM, central and nephrogenic Dl,renal fanconi's syndrome (genetic/metabolic/acguired
causes),hypercalcemia,polyuric renal failure (renal dysplasia)
Proteinuria Orthostatic,nephrotic syndrome (MCD.etc.),GN
Oliguria Dehydration. AMI.interstitial nephritis,acute or chronic kidney disease (i.e.renal failure)
Urgency UII,vulvovaginitis
Hemolytic Uremic Syndrome
Definition
• simultaneous occurrence of the triad of:
1. non -immune microangiopathic hemolytic anemia
2. thrombocytopenia
3. acute renal injury
L J
Epidemiology
• annual incidence of 1 -2 in IOOOOO in Canada
• most common cause of acute renal failure in children +
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P83Paediatrics Toronto Notes 2023
Etiology
• STEC-HUS:90% of paediatric HUS; caused by Shiga toxin-producing E.coli (usually 0157:H7)
• atypical HUS: 10% of paediatric HUS;caused by hereditary mutations in complement pathway, nonShiga toxin infections (e.g.S. pneumoniae, HIV),and drugs (cisplatin, oral contraceptives, cyclosporin
tacroliumus, and others)
Pathophysiology
• toxin binds, invades, and destroys colonic epithelial cells, causing bloody diarrhea
• toxin enters the systemic circulation, attaches to,and injures endotheliai cells (especially in the
kidney), causing a release of endothelial products(e.g. von Willebrand factor, platelet aggregating
factor)
• platelet/fibrin thrombi form in multiple organ systems (e.g. kidney, pancreas, brain) resulting in
thrombocytopenia
• RBCs are forced through occluded vessels, resulting in fragmented RBCs (schistocytes) that are
removed by the reticuloendothelial system (hemolytic anemia)
Clinical Features
• initial presentation of abdominal pain and diarrhea, followed by bloody diarrhea; within 5-7 d begins
to show signs of anemia,thrombocytopenia, and renal insufficiency
• pallor, jaundice (hemolysis), edema, petechiae. HTN,decreased urine output
Investigations
• CBC (anemia, thrombocytopenia), blood smear (schistocytes), electrolytes (due to fluid loss), renal
function, urinalysis(microscopic hematuria),stool cultures,and verotoxin/shigella toxin assay
Management
• mainly supportive: nutrition, hydration, ventilation (if necessary), blood products
• dialysis ifsymptomatic uremia, refractory electrolyte abnormality (e.g.hyperkalemia), or severe fluid
overload
• STEC-HUS: avoid antibiotics, NSAlDs, and antidianheal agents; no treatments associated with
improved outcomes
• atypical HUS:plasma exchange or eculizumab
Prognosis
• STEC-HUS: <5% mortality rate, 30% develop long-term renal damage (e.g. HTN,proteinuria,
decreased GER)
• atypical HUS: worse prognosis compared to STEC-HUS, 50% of cases result in death or dialysisdependent renal disease
Nephritic Syndrome
(§s Definition
• acute or chronic syndrome affecting the kidney, characterized by glomerular injury'and inflammation
• defined by hematuria (>5 RBCs per high-powered microscope field),presence of dysmorphic RBCs,
and RBC casts on urinalysis
• often accompanied by at least one of: proteinuria (<50 mg/kg/d), edema, HTN, azotemia, and oliguria
Epidemiology
• highest incidence in children ages 5- 15 vr
Etiology
• humoral immune response to a variety of etiologic agents -
> immunoglobulin deposition >
complement activation, leukocyte recruitment, release of growth factors/cytokines -> glomerular
inflammation and injury -> porous podocytes -> hematuria + RBC casts ± proteinuria
• HTN secondary to fluid retention and increased renin secretion by ischemic kidneys
Nephritic Syndrome
PHAROH
Proteinuria (<50 mg/kg/d)
Hematuria
Azotemia
RBC casts
Oliguria
HTN
Table 40,Major Causes of Nephritic Syndrome
Decreased C3 Normal C3
Primary
(idiopathic)
Post-infectious 611(streptococcal infectionis IgA nephropathy
the most common)
Membranoproliferathre
TypeI(SO-80%)
Type II(>80%)
Idiopathic rapidly progressive GN
Anti-EBM disease
SLE HSP(very common)
Polyarteritis nodosa
Granu!omalos:s with polyangiitis
Goodpasture'
s syndrome
Secondary
(systemic disease) Bacterial endocarditis
Abscess or shuntnephritis
Cryoglobulinemia
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P81Paediatrics Toronto Notes 2023
Clinical Features
• often asymptomatic;some overlap in clinical findings for nephritic and nephrotic syndrome
• gross hematuria, mild-moderate edema, oliguria, HTN
• signs and symptomssuggestive of underlying systemic causes (e.g.fever, arthralgias,rash,dyspnea,
pulmonary hemorrhage)
Investigations
• urine
dipstick (hematuria,0 to 2+ proteinuria) and microscopy (>5 RBCs per high-powered microscope
field,acanthocytes,RBC casts)
first morning urine protein/creatinine ratio (<200 mg/mmol)
• blood work
CBC, electrolytes,Cr,BUN, albumin
impaired renalfunction ( Cr and BUN) resulting in t pH and electrolyte abnormalities
(hyperkalemia, hyperphosphatemia, hypocalcemia)
mild anemia on CBC (secondary to hematuria)
hypoalbuminemia (secondary to proteinuria)
appropriate investigations to determine etiology:C3/C4 levels,serologic testing for recent
streptococcal infection (ASOT, anti-hyaluronidase, anti-streptokinase,anti-NAD,anti-DNAse B),
ANA,anti-DNA antibodies, ANCA,serum IgA levels, anti-GB.Vl antibodies
• renal biopsy should be considered only in the presence of acute renal failure, no evidence of
streptococcal infection, normal C3/C4
Management
• treat underlying cause
• symptomatic
renal insufficiency:supportive (dialysisif necessary), proper hydration
HTN:salt and fluid restriction (but not at expense of renal function),ACEI or ARBs for chronic
persistent HTN (not acute cases because ACEI or ARBs may decrease GFR further)
edema:salt and fluid restriction, possibly diuretics (avoid ifsignificant intravascular depletion)
• corticosteroidsifindicated:IgA nephropathy, lupus nephritis, etc.
• post-streptococcal GN should be monitored for complications long term (annual BP,urinalysis)
Prognosis
• dependent on underlying etiology
• complications include HTN, heart failure, pulmonary edema,chronic kidney injury (requiring renal
transplant)
Nephrotic Syndrome
Definition
• clinical syndrome affecting the kidney, characterized by significant proteinuria, peripheral edema,
hypoalbuminemia, and hyperlipidemia
Epidemiology
• highest incidence in children 2-6 yr, M>1
;
Etiology
• primary (idiopathic):nephrotic syndrome in the absence ofsystemic disease (most common cause in
paediatrics)
glomerular inflammation ABSENT on renal biopsy:MCD (85%),focal segmental
glomerulosclerosis
glomerular inflammation PRESENT on renal biopsy: membranoproliferative GN,IgA
nephropathy
• secondary':nephrotic syndrome associated with systemic disease or due to another process causing
glomerular injury (<10% in paediatrics)
autoimmune:SLE,DM, juvenile idiopathic arthritis
• genetic sickle cell disease,Alportsyndrome
infections:hepatitis B/C,post-streptococcal, infective endocarditis, HUS,HIV
malignancies:leukemia,lymphoma
medications:captopril, penicillamine, NSAIDs,antiepileptics
vasculitides:HSP,granulomatosis with polyangiitis
• congenital:congenital nephropathy of the Finnish type, Denys-Drash syndrome,etc.
<§)
Nephrotic Syndrome - HELP
Hy poalbuminemia (<20 g/L)
Edema
Lipids elevated
Proteinuria (>50mg/kg/d)
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