1. Neonatal Jaundice
Dr Muzammil Koshish
DCH, DNB Resident,
JLN Hospital and Research
Centre, Bhillai.
2. Neonatal Jaundice
ī¯ Learning Objectives:
Define hyperbilirubinemia.
Differentiate between physiological and
pathological jaundice.
Causes of hyperbilirubinemia.
Discuss the pathophysiology of
hyperbilirubinemia.
Complication of hyperbilirubinemia.
The three elements of therapeutic
management.
Plan of care if baby has
hyperbilirubinemia.
2
3. Neonatal Jaundice
(Hyperbilirubinemia)
ī¯ Definition: Hyperbilirubinemia refers to
an excessive level of accumulated
bilirubin in the blood and is
characterized by jaundice, a yellowish
discoloration of the skin, sclerae,
mucous membranes and nails.
ī¯ Unconjugated bilirubin = Indirect
bilirubin.
ī¯ Conjugated bilirubin = Direct bilirubin.
3
5. Neonatal Jaundice
ī¯ Visible form of bilirubinemia
īŽ Newborn skin >5 mg / dl
ī¯ Occurs in 60% of term and 80% of
preterm neonates
ī¯ However, significant jaundice occurs
in 6 % of term babies
5
6. Non â heme source
Hb â globin + haem
1 mg / kg
1g Hb = 34mg bilirubin
Bilirubin
Ligandin
(Y - acceptor) Intestine
Bilirubin
glucuronidase Bil
Bil glucuronide glucuronide
β glucuronidase
bacteria
Bilirubin
Stercobilin
Bilirubin metabolism 6
8. Clinical assessment of jaundice
Area of body Bilirubin
levels
mg/dl (*17=umol)
Face 4-8
Upper trunk 5-12
Lower trunk & thighs 8-16
Arms and lower legs 11-18
Palms & soles > 15
8
9. Physiological jaundice
Characteristics
ī¯ Appears after 24 hours
ī¯ Maximum intensity by 4th-5th day in
term & 7th day in preterm
ī¯ Serum level less than 15 mg / dl
ī¯ Clinically not detectable after 14
days
ī¯ Disappears without any treatment
Note: Baby should, however, be watched
for worsening jaundice.
9
12. Pathological jaundice
ī¯ Appears within 24 hours of age
ī¯ Increase of bilirubin > 5 mg / dl / day
ī¯ Serum bilirubin > 15 mg / dl
ī¯ Jaundice persisting after 14 days
ī¯ Stool clay / white colored and urine
staining clothes yellow
ī¯ Direct bilirubin> 2 mg / dl
12
13. Causes of jaundice
Appearing within 24 hours of
age
ī¯ Hemolytic disease of NB : Rh,
ABO
ī¯ Infections: TORCH, malaria,
bacterial
ī¯ G6PD deficiency
13
14. Causes of jaundice
Appearing between 24-72
hours of life
ī¯ Physiological
ī¯ Sepsis
ī¯ Polycythemia
ī¯ Intraventricular hemorrhage
ī¯ Increased entero-hepatic
circulation 14
15. Causes of jaundice
After 72 hours of age
ī¯ Sepsis
ī¯ Cephalhaematoma
ī¯ Neonatal hepatitis
ī¯ Extra-hepatic biliary atresia
ī¯ Breast milk jaundice
ī¯ Metabolic disorders.
15
16. Risk factors for jaundice
JAUNDICE
ī¯ J - jaundice within first 24 hrs of life
ī¯ A - a sibling who was jaundiced as
neonate
ī¯ U - unrecognized hemolysis
ī¯ N â non-optimal sucking/nursing
ī¯ D - deficiency of G6PD
ī¯ I - infection
ī¯ C â cephalhematoma /bruising
ī¯ E - East Asian/North Indian
16
18. Clinical Jaundice
Measure Bilirubin
Bilirubin>12mg/dL Bilirubin<12mg/dL
And Infant <24-h old and Infant >24-h old
Coombâs test Follow Bilirubin
Positive Coombâs Negative Coombâs
Identify Antibody
âĸRh
âĸABO
âĸKELL, etc. Direct Bilirubin
18
19. Direct Bilirubin
Direct Bilirubin >2; Consider: Direct Bilirubin <2
ī§Hepatitis
ī§Intrauterine, Viral, or
ī§Toxoplasmic infections Hematocrit
ī§Biliary obstruction
ī§Sepsis
ī§Galactosemia
ī§Alpha-1-antitrypsin deficiency Normal or Low High
ī§Cystic fibrosis (Polycythemia)
ī§Tyrosinosis
ī§Cholestasis
ī§Hyperalimentation
ī§Syphillis RBC Morphology
ī§Hemochromatosis Reticulocyte count
19
22. Medical Care
ī¯ Phototherapy
ī¯ Exchange transfusion
ī¯ Drugs
ī¯ Diet
22
23. Phototherapy
ī¯ Is the primary treatment .
ī¯ Was discovered in England in the
1950s .
23
24. Why Phototherapy is
effective?
Three reactions can occur when
bilirubin is exposed to light :
ī¯ Photo-oxidation
ī¯ Photo-isomerization
ī¯ Structural isomerization
24
25. Factors That Affect the Dose
and Efficacy of Phototherapy
ī¯ Wavelength
ī¯ Irradiation level
ī¯ Distance
ī¯ Bilirubin concentration
ī¯ Nature and character of the light
source
25
26. Wavelength
ī¯ Bilirubin absorbs light primarily
around 450 nm, typically 425 to 475
nm
ī¯ In practice, light used in
wavelengths : white, blue, and
green
26
29. Distance
ī¯ Distance should not be greater than
50 cm (20 in)
ī¯ Can be less if the infant's
temperature is monitored.
ī¯ Energy delivered decreases with
increasing distance .
29
31. Bilirubin concentration
ī¯ The efficiency of phototherapy
increases with :
- serum bilirubin concentration.
- skin surface
31
32. Nature and character of the
light source
Wide Spectrum
ī¯ Quartz halide spotlights
ī¯ Green light
ī¯ Blue fluorescent tubes
Narrow-spectrum
Ordinary
ī¯ White (daylight) fluorescent tubes
ī¯ White quartz lamps
ī¯ Fiberoptic light
32
33. Indications for phototherapy
ī¯ In most neonatal wards, total serum
bilirubin levels are used as the primary
measure of risk for bilirubin
encephalopathy.
ī¯ The 2004 AAP guidelines represent a
significant change from the 1994
guidelines.
ī¯ The emphasis on preventive action
and risk evaluation is much stronger.
33
35. Key points in the practice
ī¯ Maximizing energy delivery
ī¯ Maximizing the available surface
area.
35
36. Intermittent Versus
Continuous Phototherapy ?
ī¯ Clinical studies have produced conflicting
results.
ī¯ Individual judgment should be
exercised.
ī¯ If the infantâs bilirubin level is approaching
the exchange transfusion zone ,
phototherapy should be administered
continuously until a satisfactory decline in
the serum bilirubin level occurs or
exchange transfusion is initiated.
36
37. What about insensible water
loss?
ī¯ New data suggest that if temperature
homeostasis is maintained, fluid loss is
not increased significantly by
phototherapy.
ī¯ In infants who are fed orally, the preferred
fluid is milk, since milk serves as a
vehicle to transport bilirubin out of the
gut.
37
38. Timing of follow-up
serum bilirubin ?
ī¯ In infants admitted with extreme
serum bilirubin values ( 30 mg/dL):
monitoring should occur every hour or every
other hour.---------ī Reductions in serum
bilirubin values (5 mg/dL/h).
ī¯ In infants with more moderate
elevations of serum bilirubin : monitoring
every 6-12 hours .
38
39. Expectations regarding
efficacy of phototherapy ?
ī¯ Bilirubin concentrations are still rising-----ī a
significant reduction of the rate of increase .
ī¯ Bilirubin concentrations are close to their
peak-----ī phototherapy should result in measurable
reductions in serum bilirubin levels within a few hours.
ī¯ In general, the higher the starting serum bilirubin
concentration, the more dramatic the initial rate of
decline.
39
40. When discontinuation of
phototherapy?
ī¯ When serum bilirubin levels fall (1.5-3
mg/dL) below the level that triggered the
initiation of phototherapy.
ī¯ Serum bilirubin levels often rebound, and
follow-up tests should be obtained within
6-12 hours after discontinuation.
40
42. Phototherapy complications
ī¯ Phototherapy is very safe, and it may have no serious long-
term effects in neonates .
ī¯ Insensible water loss is not as important as previously believed.
ī¯ Loose stools.
ī¯ Bronze baby syndrome
ī¯ Retinal damage
ī¯ Effects on cellular genetic material
in vitro and animal data have not been shown any implication for
treatment of human neonates.
However, most hospitals use cut-down diapers during phototherapy .
42
43. Phototherapy complications
ī¯ Skin blood flow is increased--ī redistribution of blood flow may
occur in small premature infants--ī Increased incidence of
patent ductus arteriosus (PDA) has been reported
But this effect is less pronounced in modern servocontrolled
incubators.
ī¯ Hypocalcemia in premature infants . It has been
suggested that this is mediated by altered melatonin metabolism.
ī¯ Deterioration of certain amino acids in total parenteral
nutrition (TPN) solutions.
Shield TPN solutions from light as much as possible.
ī¯ Accidents have been reported, including burns resulting from
failure to replace UV filters.
43
46. What are indications of
Exchange transfusion?
ī¯ Avoiding bilirubin neurotoxicity
when other therapeutic
modalities have failed.
ī¯ In addition, even in the absence of
high serum bilirubin levels, the
procedure may be indicated in infants
with erythroblastosis .
46
47. Exchange transfusion has
been performed because of :
ī¯ Cord hemoglobin <11 g/dL
ī¯ Cord bilirubin > 4.5 mg/dL
ī¯ Rapid rate of increase in bilirubin >1 mg/dL/h
ī¯ More moderate rate of increase in bilirubin> 0.5
in the presence of moderate anemia Hb=11-13
ī¯ Hemolytic jaundice with bilirubin > 20
or a rate of increase that predicted this level
(fear of 20) .
47
48. Why Exchange transfusion
become a rare procedure ??
ī¯ Immunotherapy in Rh-negative women
So ,ABO incompatibility has become the most
frequent cause of hemolytic disease in
industrialized countries.
ī¯ Effective phototherapy
ī¯ Recently, immunotherapy has been
introduced as treatment in the few
remaining sensitized infants. Results are
promising
48
49. When exchange transfusion
should be performed ?
ī¯ When phototherapy does not
significantly lower serum bilirubin
levels
ī¯ Intensive phototherapy is strongly
recommended in preparation for an
exchange transfusion. do not await
laboratory test results in these cases .
49
53. What about Phenobarbital ?
an inducer of hepatic bilirubin
metabolism
ī¯ Several studies have shown that
phenobarbital is effective .
ī¯ Phenobarbital may be
administered :
- pre-natally in the mother or
- post-natally in the infant.
ī¯ However, concerns exist regarding
the long-term effects of phenobarbital on
these children.
54
54. What about IV immunoglobulin
(500 mg/kg) ?
ī¯ Significantly reduce the need for
exchange transfusions in infants
with isoimmune hemolytic
disease.
55
55. New therapy :
Mesoporphyrins and Protoporphyrins
ī¯ Currently under development
ī¯ Inhibition of bilirubin production through
blockage of heme oxygenase.
ī¯ Apparently, heme can be excreted
directly through the bile .
ī¯ This approach may virtually eliminate
neonatal jaundice as a clinical problem.
But âĻ
56
56. Important questions
before the treatment can be applied
ī¯ Long-term safety ?.
ī¯ Complete understanding of
putative role for bilirubin in light of
data suggesting that bilirubin may
play an important role as a free
radical quencher ( anti-oxidant ) ?
57
58. Supplementation with dextrose
solution
ī¯ It is not recommended
because
- it may decrease caloric intake
- it may decrease milk production
- it may accelerate enterohepatic
circulation and consequently
delay the drop in serum bilirubin
concentration
59
59. What is
the recommendation ?
ī¯ Increase breastfeeding to 8-12
times per day
ī¯ Breastfeeding can also be
supported with manual or electric
pumps and the pumped milk given
as a supplement to the baby.
60
60. When infants can be
discharged ?
ī¯ When they are :
- feeding adequately and
- demonstrating a trend towards
lower values.
ī¯ Auditory function tests prior is
advisable in infants who have had
severe jaundice.
61
61. How to manage infants released
within the first 48 hours of life ?
ī¯ In the era of early discharge in recent
years, a number of infants have developed
kernicterus ---ī
ī¯ Infants need to be reassessed for
jaundice within 1-2 days.
ī¯ Use of hour-specific bilirubin nomogram
may assist in selecting infants .
62
63. Do infants need follow-up
obsevation after Bilirubin falls?
ī¯ Infants with hemolytic jaundice
require follow-up observation for
several weeks because
hemoglobin levels may fall lower
than seen in physiologic anemia.
ī¯ Erythrocyte transfusions may be
required if infants develop
symptomatic anemia.
64
64. FinallyâĻWhat about
Prognosis ?
ī¯ Prognosis is excellent if the patient
receives treatment according to accepted
guidelines.
ī¯ The increased incidence of kernicterus in
recent years may be due to the
misconception that jaundice in the healthy
full-term infant is not dangerous and can
be disregarded.
65
65. The goals of planning
Infant should receive appropriate
therapy if needed to reduce
serum bilirubin levels.
Infant should experience no
complications from therapy.
Family should receive emotional
support.
Family should be prepared for
discharge and home based care.
66
66. References
ī¯ American Academy of Pediatrics, Subcommittee on Hyperbilirubinemia.
Management of hyperbilirubinemia in the newborn infant 35 or more
weeks of gestation. Pediatrics. 2004;114:297-316
ī¯ Johnson LH, Bhutani VK, Brown AK. System-based approach to
management of neonatal jaundice and prevention of kernicterus. J
Pediatr. 2002;140:396-403
ī¯ American Academy of Pediatrics, Steering Committee on Quality
Improvement and Management. Classification of recommendations for
clinical practice guidelines. Pediatrics. 2004;114:874-877
ī¯ Gartner LM, Herschel M. Jaundice and breastfeeding. Pediatr Clin
North Am. 2001;48:389-399
ī¯ Moyer VA, Ahn C, Sneed S. Accuracy of clinical judgment in neonatal
jaundice. Arch Pediatr Adolesc Med. 2000;154:391-394
ī¯ Ip S, Glicken S, Kulig J, Obrien R, Sege R, Lau J. Management of
Neonatal Hyperbilirubinemia. Rockville, MD: US Department of Health
and Human Services, Agency for Healthcare Research and Quality;
2003. AHRQ Publication 03-E011
ī¯ Bhutani VK, Johnson LH, Sivieri EH. Predictive ability of a predischarge
hour-specific serum bilirubin for subsequent hyperbilirubinemia in
healthy term and near-term newborns. Pediatrics. 1999;103:6-14.
ī¯ American Academy of Pediatrics, Subcommittee on Neonatal
Hyperbilirubinemia. Neonatal jaundice and kernicterus. Pediatrics. 67
2001;108:763-765