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Bilirubin%20metabolism

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Title: Bilirubin%20metabolism


1
Bilirubin metabolism
  • RBCs in newborn has the life span of 70-90 days
    compared with 120 days in adult. Hemoglobin is
    degraded to heme and globin after breakdown of
    RBCs in reticuloendothelial system. Heme is
    converted to biliverdin by heme oxygenase.
    biliverdin is converted to bilirubin by
    biliverdin reductase. Bilirubin is attached to
    albumin and is transferred to hepatic cells from
    sinusoids. Bilirubin is then conjugated to
    monoglucuronide and diglucuronide which are water
    soluble and can be excreted via renal and biliary
    systems. Approximately 25 of excreted bilirubin
    is deconjugated and reabsorbed by enterohepatic
    circulation, 10 is excreted in stool and the
    remaining part is converted to urobilinogen.

2
Four stages of bilirubin metabolism
  • 1-transport
  • 2-hepatic uptake
  • 3-conjugation
  • 4-excretion.
  • in neonates uptake and conjugation are the more
    restrictive steps.

3
Different forms of bilirubin in serum
  • Bilirubin exists in four different forms in
    serum
  • 1-unconjugated bilirubin
  • 2-free bilirubin
  • 3-conjugated bilirubin
  • 4-d bilirubin

4
Physiologic hyperbilirubinemia
  • 1-never begins in the first 24 h
  • 2-maximum bilirubin level of 12mg/dl in terms and
    10-14 in preterms
  • 3-returns to normal after 10 days in terms and
    10-14 days in preterms
  • 4- maximum rising rate is 5mg/dl/day
  • 5-direct level is not more than 1mg/dl

5
Neonatal hyperbilirubinemia
  • Term neonates
  • peak level of 5-6mg/dl in white and African
    American babies and 10-14mg/dl in Asian American
    babies between 72 and 120hr of age.
  • Preterm neonates
  • peak level of 10-12mg/dl by the fifth day of
    life.
  • Postterm neonates
  • nearly all post mature neonates and
    approximately half of SGA term neonates may be
    expected to have little or no physiologic
    jaundice, with peak total serum bilirubin
    concentrations of less than 2.5mg/dl.

6
Nonphysiologic jaundice
  • STB concentrations have been defined as
    nonphysiologic
  • if the concentration exceeds
  • 5 mg/ dL on the first day of life in a term
    neonate,
  • 10 mg/ dL on the second day,
  • or 12 to 13 mg/ dL thereafter,
  • based on data from
  • the national Collaborative Perinatal Project
  • (Hardy et ai,1979).

7
Causes of unconjugated hyperbilirubinemia
  • Isoimmune hemolytic disease (ABO- Rh
    incompatibility between mother and fetus).
  • Erythrocyte enzymatic defects (G6PD PK
    deficiency).
  • Erythrocyte structural defects (spherocytosis,
    elliptocytosis, pyknocytosis).
  • Infection
  • Concealed hemorrhage
  • Gillbert syndrome
  • Crigler-Najjar syndrome type12
  • Transient familial neonatal hyperbilirubinemia
    (Lucey- Driscoll syndrome).
  • Pyloric stenosis
  • Hypothyroidism
  • Breast feeding jaundice
  • Breast milk jaundice

8
ABO Rh incompatibility
  • Mother O
  • Infant A B AB
  • Mother Rh negative
  • Infant Rh positive

9
Lucey - Driscoll syndrome
  • A rare disorder in which every neonate of certain
    mothers may be expected to develop severe
    unconjugated hyperbilirubinemia during the first
    48 hrs of life with TSB concentration of usually
    20 mg/dl or greater.
  • Cause
  • high concentration of UGT inhibitor in maternal
    and neonatal serum

10
Pyloric stenosis
  • three causes of hyperbilirubinemia are
  • 1- decrease UGT activity
  • 2-decreased caloric supplement
  • 3-enhanced enterohepatic circulation

11
Hypothyroidism
  • UGT activity in congenital hypothyroidism is
    deficient and may remain suboptimal for weeks or
    months.
  • Treatment with thyroid hormone promptly
    alleviates the hyperbilirubinemia.

12
Breast milk jaundice
  • Significant elevation in unconjugated bilirubin
    develops in an estimated 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 week. If breast-feeding is
    continued, the bilirubin gradually decreases but
    may persist for 3-10 wk at lower levels. If
    nursing is discontinued, the serum bilirubin
    level falls rapidly, reaching normal levels
    within a few days. With resumption of
    breast-feeding, bilirubin levels seldom return to
    previously high levels. Phototherapy may be of
    benefit. Although uncommon, kernicterus can occur
    in patients with breast-milk jaundice. The
    etiology of breast-milk jaundice is not entirely
    clear, but may be attributed to the presence of
    glucuronidase in some breast milk.

13
Breast feeding jaundice
  • occurs in the 1st week of life, in breast-fed
    infants who normally have higher bilirubin levels
    than formula-fed infants.
  • Hyperbilirubinemia (gt12 mg/dL) develops in 13 of
    breast-fed infants in the 1st wk of life and may
    be due to decreased milk intake with dehydration
    and/or reduced caloric intake.
  • Giving supplements of glucose water to
    breast-fed infants is associated with higher
    bilirubin levels, in part because of reduced
    intake of the higher caloric density of breast
    milk.
  • Frequent breast-feeding (gt10/24 hr), rooming-in
    with night feeding, discouraging 5 dextrose or
    water supplementation, and ongoing lactation
    support may reduce the incidence of early
    breast-feeding jaundice.

14
First day jaundice
  • Neonatal jaundice in first 24hr of life is due to
  • ABO or Rh incompatibility until proved
    otherwise.

15
Diagnostic work up
  • Regardless of gestation or time of appearance of
    jaundice, patients with significant
    hyperbilirubinemia require a complete diagnostic
    evaluation, which includes
  • 1-CBC reticulocyte count peripheral blood smear
  • 2- blood group of mother and neonate
  • 3- direct coombs test
  • 4- G6PD

16
Hemolytic jaundice
  • 1-reticulocytosis
  • 2-smear with evidence of RBC destruction
  • 3-drop in hemoglobin
  • 4- direct coombs positive
  • 5- mother/neonate blood group incompatibility
  • 6-G6PD deficiency
  • 7- daily increment gt 5mg/dl

17
Visual estimation of jaundice
  • Bilirubin is at least 5 mg/dl if the sclera and
    face is yellow.
  • Chest yellow about 10mg/dl
  • Umbilicus about 15mg/dl
  • Knee about 20mg/dl
  • Ankle about 25mg/dl
  • Sole more than 25mg/dl

18
Phototherapy exchange level
  • Exchange level may be estimated according to the
    premature infant chart or chart for premature
    infants more than 35wk.
  • Phototherapy is started at 75 of the exchange
    level.
  • Phototherapy is discontinued at 50 of the
    exchange level.

19
phototherapy guidline GAgt 35wk
  • Phototherapy guideline

20
  • Exchange transfusion guideline GAgt35wk

21
Suggested Maximal Indirect Serum
BilirubinConcentrations (mg/ dL) in Preterm
Infants
Birth weight Uncomplicated Complicated
lt 1000g 12 - 13 10 - 12
1000 1250g 12 - 14 10 - 12
1250 1500g 14 - 16 12 - 14
1500 2000g 16 - 20 15 - 17
2000 2500g 20 - 22 18 - 20
22

23
Sequelae of unconjugated hyperbilirubinemia
  • Transient encephalopathy
  • early bilirubin toxicity is transient and
    reversible. this is suggested by clinical
    observations of increasing lethargy with rising
    TSB concentrations, which reverses after exchange
    transfusion.
  • Kernicterus
  • in term neonates several phases have been
    classically described.
  • Phase1 is marked by poor sucking, hypotonia and
    depressed sensorium.
  • Phase 2 fever, retrocollis and hypertonia that
    may progress to frank opisthotonus. Phase 3
    hypertonia becomes less pronounced, but high
    pitched cry, hearing and visual abnormalities,
    poor feeding and athetosis are manifest.
    Seizures may also occur. The usual time course
    for progression of disease is approximately 24
    hours. Long term survivors often demonstrate
    choreoathetoid cerebral palsy, upward gaze palsy,
    sensorineural hearing loss, and less often mental
    retardation and dental dysplasia during later
    infancy and childhood.

24
KERNICTERUS
  • Kernicterus, or bilirubin encephalopathy, is a
    neurologic syndrome
  • resulting from the deposition of unconjugated
    (indirect)bilirubin
  • in the
  • basal ganglia
  • and
  • brainstem nuclei.

25
KERNICTERUS
  • The pathogenesis of kernicterus is multifactorial
    and involves an interaction between
  • unconjugated bilirubin levels,
  • albumin binding and unbound bilirubin levels,
  • passage across the blood-brain barrier, and
  • neuronal susceptibility to injury.

26
KERNICTERUS
  • level of indirect bilirubin,
  • duration of exposure to elevated levels,
  • the cause of jaundice, and
  • the infant's well-being.

27
KERNICTERUS
  • The precise blood level above which
    indirect-reacting bilirubin or free bilirubin
    will be toxic for an individual infant is
    unpredictable, but kernicterus is rare in healthy
    term infants and in the absence of hemolysis if
    the serum level is lt25 mg/dL.

28
KERNICTERUS
  • The risk in infants with hemolytic disease is
  • directly related to serum bilirubin levels.
  • The duration of exposure needed to produce toxic
    effects is unknown.

29
NCIDENCE AND PROGNOSIS
  • By pathologic criteria,
  • Kernicterus will develop in 1/3 of infants (all
    gestational ages)
  • with untreated hemolytic disease and bilirubin
    levels gt25-30 mg/dL.
  • Reliable estimates of the frequency of the
    clinical syndrome
  • are not available because of the wide spectrum of
    manifestations.

30
NCIDENCE AND PROGNOSIS
  • Overt neurologic signs have a grave prognosis
  • More than 75 of such infants die,
  • and 80 of affected survivors have bilateral
    choreoathetosis with involuntary muscle spasms.
  • Mental retardation, deafness, and spastic
    quadriplegia are common.

31
Factors affecting the risk of kernicterus
  • Hypoproteinemia
  • Drugs competing for binding to albumin
  • Acidosis
  • Increased free fatty acid levels
  • Hypoglycemia
  • Hypothermia
  • Asphyxia
  • Infection
  • Prematurity
  • Hyperosmolality
  • IVH

32
Factors affecting the risk of kernicterus
  • Delay in passage of meconium, which contains 1 mg
    bilirubin/dL, may contribute to jaundice by
    enterohepatic circulation after deconjugation by
    intestinal glucuronidase.
  • Oxytocin
  • Phenolic detergents
  • Polycythemia
  • IDM

33
Risk factors for development of severe
hyperbilirubinemia
34
Phototherapy
  • three independent mechanisms have been proposed
    to explain the action of phototherapy in reducing
    serum bilirubin concentrations in neonates.
  • Geometric photoisomerization
  • Intramolecular cyclization
  • Oxidation

35

36
Standard phototherapy -intensive phototherapy
  • lamps are normally positioned within 40cm or in
    cases of
  • intensive phototherapy
  • within 15-20cm of the patient.
  • The patient should be on an open warmer or in a
    crib as opposed to an incubator.
  • A prolonged on-off schedule may not be as
    effective as continuous therapy , but an on-off
    cycle of less than 1hour is apparently as
    effective as continuous treatment.
  • Complications
  • 1- retinal degeneration 2-increase in body and
    environmental temperature 3-loose stool 4-bronze
    baby syndrome 5-hypocalcemia 6-DNA damage 7-risk
    of PDA in VLBW.

37
Efficacy
  • The use of phototherapy has decreased the need
    for exchange transfusion in term and preterm
    infants with hemolytic and nonhemolytic jaundice.
  • When indications for exchange transfusion are
    present, phototherapy should not be used as a
    substitute
  • however, phototherapy may reduce the need for
    repeated exchange transfusions in infants with
    hemolysis.

38
The therapeutic effect of phototherapy depends on
the
  1. Light energy emitted in the effective range of
    wavelengths,
  2. the distance between the lights and the infant,
  3. the surface area of exposed skin,
  4. the rate of hemolysis and
  5. in vivo metabolism and excretion of bilirubin.

39
Frequency of bilirubin check
  • Depends on the bilirubin level.
  • In hemolytic disease and bilirubin level near
    exchange, sampling should be done q4-8h to ensure
    bilirubin has fallen to a nontoxic level, then
    the frequency of check may be decreased to q12h.
  • Checking bilirubin level with a phototherapy
    duration less than 4hr is not useful, because
    there is no decrement with such a short duration.

40
When to subtract direct bilirubin from total?
  • In making decision about exchange transfusion
    direct bilirubin should not be subtracted from
    total, unless the direct level is more than 50
    of total. (f)

41
Complications
  • Complications associated with phototherapy
    include
  • loose stools,
  • erythematous macular rash,
  • purpuric rash associated with transient
    porphyrinemia,
  • dehydration (increased insensible water loss,
    diarrhea),
  • hypothermia from exposure,
  • overheating,
  • bronze baby syndrome.
  • The term bronze baby syndrome refers to a
    sometimes-noted dark, grayish-brown skin
    discoloration in infants undergoing phototherapy.
    Almost all infants observed with this syndrome
    have had significant elevation of direct-reacting
    bilirubin and other evidence of obstructive liver
    disease. The discoloration may be due to
    photo-induced modification of porphyrins, which
    are often present during cholestatic jaundice and
    may last for many months. Despite the bronze baby
    syndrome, phototherapy can continue if needed.

42
Preparations- cautions
  • Before initiating phototherapy, the infant's eyes
    should be closed and adequately covered to
    prevent light exposure and corneal damage. Eye
    shields should be fitted properly to avoid
    pressure injury to the closed eyes, corneal
    excoriation if the eyes can be opened under the
    binding, and nasal occlusion. Body temperature
    should be monitored, and the infant should be
    shielded from bulb breakage. Irradiance should be
    measured directly and details of the exposure
    recorded (type and age of the bulbs, duration of
    exposure, distance from the light source to the
    infant).
  • In infants with hemolytic disease, care must be
    taken to monitor for the development of anemia,
    which may require transfusion.
  • Anemia may develop despite lowering of bilirubin
    levels.
  • Clinical experience suggests that long-term
    adverse biologic effects of phototherapy are
    absent, minimal, or unrecognized.

43
Prophylactic phototherapy
  • In premature infants less than 1500g phototherapy
    is usually started on admission to prevent
    bilirubin rising which may approach exchange
    levels during the hospital course.

44
Exchange transfusion
  • it is the standard mode of therapy for immediate
    treatment of hyperbilirubinemia to prevent
    kernicterus. in this technique, the equivalent of
    two neonatal blood volumes (170cc/kg)is replaced
    in aliquots not more than 10 of total blood
    volume. The procedure usually takes 1-2hours. By
    the end of double volume exchange transfusion
    only about 15 of circulating erythrocytes
    remain, but the serum bilirubin is still 45-60
    of the pre exchange level. Immediately after the
    exchange further equilibration takes place which
    is completed within 30 minutes and produces the
    early rebound of plasma bilirubin to 60 to 80
    of the pre exchange level. Blood sugar, calcium,
    sodium, potassium, bilirubin, HCT, platelet count
    should be measured 4hr after exchange .

45
  • Exchange set

46

47
Potential complications of exchange transfusion
  • Thrombocytopenia
  • Portal vein thrombosis or other thromboembolic
    complications
  • Umbilical or portal vein perforation
  • Acute necrotizing enterocolitis (NEC)
  • Arrhythmia, cardiac arrest
  • Hypocalcemia, hypomagnesemia, hypoglycemia
  • Metabolic acidosis, rebound metabolic alkalosis
  • Graft versus host disease
  • HIV, HBV, HCV infections
  • All other potential complications of blood
    transfusion

48
LED
49
LED
50

51
Halogen lamps
52
Fiberoptic phototherapy
53
photoblanket
54
Rebound
  • Serum bilirubin may rise after discontinuation of
    phototherapy, especially in the case of hemolytic
    jaundice and in preterm infants.
  • Bilirubin measurement is recommended 24 hr after
    phototherapy discontinuation if the cause of
    jaundice is considered to be hemolytic or if the
    infant is premature.

55
Follow up
  • All infants with hyperbilirubinemia at exchange
    level should be referred for hearing screening
    after discharge.
  • Infants suffering hemolytic jaundice due to ABO
    Rh incompatibility should be controlled for
    anemia after discharge, and may be candidate for
    human recombinant erythropoietin.

56
Home phototherapy
  • Because most of the devices commonly used for
    home phototherapy do not provide the same degree
    of irradiance or surface area exposure as those
    available in the hospital, home phototherapy, of
    necessity, is used in the prophylactic rather
    than in the therapeutic mode.

57
Hyperbilirubinemia
  • 1- CBC Retic PBS Coombs G6PD Blood
    group/ Rh Bilirubin total direct
  • 2- phototherapy conventional double
    intensive ( better in bassinet than incubator)
  • 3- check bilirubin q4-6-8-12-24h
  • 4- work up for sepsis if suspected
  • 5- IVIG in ABO Rh incompatibility
  • 6- Albumin transfusion (not common practice)
  • 7- Exchange transfusion preparation with NPO 4h
  • duration 45 60 min. followed with post
    exchange lab tests? CBC PLT BS Ca Na K
    Bilirubin total direct and PO feeding
    started after 2 4 h.
  • 8- D/C breast feeding for 48 h.
  • 9- white sheet or foil coverage around incubator
    or bassinet
  • 10- decrease distance between baby and lamps
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