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Summary

This document discusses neonatal jaundice, covering topics such as bilirubin levels, causes (including hemolytic and non-hemolytic factors), diagnosis, treatment, and potential complications, such as kernicterus. It includes detailed information on various aspects of neonatal jaundice and its associated risks.

Full Transcript

Yenidoğan Sarılığı

Prof. Dr. Esra ÖZER
İzmir Tınaztepe Üniversitesi
Tıp Fakültesi
 Bilirubin
An)oksidan Nörotoksik
 Yenidoğan Sarılığı
Bilirubin cilt ve sklerayı sarıya boyar
– Erişkin > 2 mg/dl
– Yenidoğan > 5 mg /dl
Yaşamın ilk ha7ası içerisinde
– term bebeklerin yaklaşık %60 ında,
– preterm bebeklerin ise %80 inde
Haya;n ilk 2 ha7asında hastaneye yeniden
ya;şın en sık nedenidir
 Original
Contributions

THE FACTORS AFFECTING NEONATAL PRESENTATIONS TO THE PEDIATRIC
EMERGENCY DEPARTMENT

Ezgi Deniz Batu, MD,* Serap Yeni, RN,† and Ozlem Teksam, MD†

*Division of Rheumatology, Department of Pediatrics and †Division of Emergency Medicine, Department of Pediatrics,
Hacettepe University Medical Faculty, Ankara, Turkey
Reprint Address: Ezgi Deniz Batu, MD, Division of Rheumatology, Department of Pediatrics, Hacettepe University
Faculty of Medicine, Ankara 06100, Turkey

, Abstract—Background: A pediatric emergency depart- newborn care may help to decrease nonacute PED visits
ment (PED) may be utilized by neonates for nonurgent com- The Journal of Emergency Medicine,
by neonates. ! Vol.
2015 48, No.Elsevier
5, pp. 542–547,Inc.
2015
plaints. Various factors, such as primiparity, maternal age,
early postnatal discharge, race, income, and maternal and , Keywords—newborn; emergency
Copyright ! 2015 Elsevier Inc. department; acute
Printed inprematurity
the USA. All rights reserved
Acil servise yenidoğan döneminde en sık
paternal educational levels, have been reported to affect visit; primiparity;
the acuity of neonatal emergency department utilization. 0736-4679/$ - see front matter
Objective: To determine the characteristics of PED visits INTRODUCTION
by neonates (infants # 28 days of age) and to evaluate the

başvuru nedeni (%23.4)
http://dx.doi.org/10.1016/j.jemermed.2014.12.031
factors affecting the acuity of these visits. Methods: We pro-
spectively collected the data of neonates who were admitted
to the PED of a tertiary university hospital within a 6-month
A pediatric emergency department (PED) may be utilized
by neonates for nonurgent complaints. However, the
arrival of a newborn to a busy emergency department
period. Presenting problems were classified as acute if diag-

Acil servisten ya;rılan yenidoğan hastaların
nostic tests were requested or the patient was hospitalized, (ED) is a concern for PED physicians. This concern
unless the final diagnosis was ‘‘normal newborn.’’ Results: grows out of several factors, such as crowded waiting
Over this period, 28,389 children (0–18 years of age) visited and evaluation areas, which are inappropriate for

Original
the PED, of which 531 were newborns (1.9%). The mean age

(%23.2) arasında en sık hastaneye ya;ş
newborns; high risk of acute deterioration; and similar
was 14.1 ± 8.3 days, with a slight predominance of males response of newborns to variable types of stress, which
(57.3%). The chief complaints were jaundice (23.4%), irrita- makes it difficult to decide about the acuity of the
bility (9.5%), and vomiting (7.1%), and the most common condition (1). In addition, the differential diagnosis

nedeniContributions
(%17.9)
diagnoses were normal newborn (33.9%), indirect hyperbi-
for each nonspecific symptom in the neonatal period is
lirubinemia (13.2%), and colic (5.8%). Acute visits
extensive (2).
were 55.7% of the total visits. Premature infants, infants
of multiparous mothers, infants of older mothers There has also been an increase in early discharges af-
($25 years), and physician-referred infants were more ter birth in Turkey over the last few decades, as a result of
likely to present with acute problems (p values were 0.001, changing psychosocial factors, health considerations, and
0.013, 0.006, and 12 mg/dL, preterm
bebekte >15 mg/dL
4. Direkt bilirubin düzeyinin
1. TB ≤5 mg/dl olanlarda >1 mg/dl veya
2. TB >5 mg/dl olanlarda TB’nin > %20’si olması
5. Klinik olarak sarılığın term bebekte 2 haNa,
preterm bebekte ise 3 haNadan fazla uzaması
 Tanı
CilQeki sarılık gün ışığında
veya iyi aydınla;lmış bir
odada
Sararma öncelikle yüzde
görülür
Sefalopedal dağılım gösterir
 Yenidoğanda Hiperbilirübinemi
Nedenleri
ARTMIŞ BİLİRÜBİN YÜKÜ

HEMOLİTİK NEDENLER HEMOLİTİK OLMAYAN NEDENLER

COOMBS POZİTİF COOMBS NEGATİF

-Rh uygunsuzluğu -Eritrosit membran defektleri (Sferositoz,eliptositoz)
-ABO uygunsuzluğu -Eritrosit enzim defektleri (G6PD eksikliği,PK eksikliği)
-Minör grup uygunsuzluğu -İlaçlar
-HemoglobinopaUler
-Sepsis
 ABO uyuşmazlığı
Anne 0, bebek A veya B kan grubu
Kan grubu uyuşmazlıkları içinde en sık
İlk gebelikte de ortaya çıkabilir
Sarılık ilk 24 saaQe başlar
Anemi genellikle hafif
D. Coombs tes[ nega[f veya zayıf pozi[f
Rh uyuşmazlığına göre daha selim
 Rh İzoimmünizasyonu

İzoimmünizasyon, Rh (D)-negaUf annenin Rh (D)-
poziUf eritrositlerle karşılaşmasıyla olur.
Anne kanının fetal eritrositlerle karşılaşması; doğum
olayı, düşükler yada fetomaternal transfüzyonla
olabilmektedir.

0.1 ml fetal eritrosit yeterli
 Rh (D)-pozi[f eritrositlerle annenin ilk
karşılaşmasında Ig M yapısındaki an[korlar
oluşur.

İkinci karşılaşmada Ig G yapısındaki an[korlar
ortaya çıkarlar ve plasentayı geçerek hemolizi
başla;rlar.(ikinci bebekte risk artar)
 Hafif olgularda;
Coombs pozi*fliği dışında, hiperbilirubinemi
ve anemi belirgin değildir.
Orta ağırlıktaki olgularda;
Belirgin hemoliz ve hiperbilirubinemi vardır.
İleri derecede ağır olgularda;
Ağır anemi, hepatoselüler hasar,
hipoproteinemi ve hidrops gelişir.
 Rhogam
AnU D immunglobulin
Gebeliğin 7. ayında ve
doğumdan sonra ilk 72
saa\e
Annede İDC(-) /bebekte
DC(-) ise
 ARTMIŞ BİLİRÜBİN YÜKÜ

HEMOLİTİK NEDENLER HEMOLİTİK OLMAYAN NEDENLER

İndirekt bilirübin
ReUkülosit normal

ARTMIŞ ENTEROHEPATİK
EKSTRAVASKÜLER KAYNAKLAR POLİSİTEMİ SİRKÜLASYON

Sefal hematom Fetal-maternal transfüzyon KisUk fibrozis
Ekimoz İkizden ikize transfüzyon Pilor stenozu
SSS kanamaları Göbek kordonunun geç İlial atrezi
Yutulmuş kan klemplenmesi Hirschprung hastalığı
Anne sütü sarılığı
 Bilirubinin
hepatosite uptake
ve transport
kusuru

Konjugasyonun
yetersiz olması
 Azalmış Bilirübin
Konjugasyonu ve Karaciğer
Uptake Kusuru

İndirekt
bilirübin
Normal reAkülosit oranı

Crigler –Najjar sendromu Ap I –II
Gilbert Sendromu
Anne sütü Sarılığı
HipoAroidi
Ligandin (Y proteini ) azlığı
Y ve Z proteinlerinin başka anyonlar taraMndan bağlanması
Fizyolojik sarılık
Yetersiz Bilirübin
AOlımı
 Yetersiz Bilirübin AOlımı

Direkt ve İndirekt Bilirübin
NegaUf Coombs tesU
Direkt Bilirübin 2 mg/dl
Direkt Bilirübin T. Bil. %20 sinden fazla olması

BİLİYER OBSTRÜKSİYON
KROMOZOMAL ANOMALİLER İLAÇLAR
ENFEKSİYONLAR METABOLİK BOZUKLUKLAR
Biliyer atrezi
Turner Sendromu Asetominofen
Sepsis
Koledeok kisI
Trizomi 18-21 Alkol Galaktozemi
Primer sklerozan kolanjit İdrar yolu enfeksiyonu KisUk Fibrozis
Dubin Johnson Sendromu
Rifampisin
Sifiliz Alfa 1 anUtripsin eksikliği
Rotor Sendromu Eritromisin
Toksoplazmozis Glikojen depo hastalıkları
Neoplazmlar KorUkosteroid
Tüberküloz Gaucher Hastalığı
Safra taşı Tetrasiklin
HepaUt HipoUroidi
Rubella Wilson Hastalığı
Herpes Nieman Pick Hastalığı
 Bilirubin EnsefalopaDsi
Bilirubin Ensefalopa0si:
Akut klinik bulgular
Kernikterus : Kronik ve
kalıcı sekel

Mortalite % 10, uzun
dönem morbidite %70
 Akut bilirubin ensefalopaAsinde
klinik bulgular
EVRE 1 (ilk birkaç gün) : Uyuklama, hipotoni,
emmede azalma
EVRE 2 (3-7 gün): Ekstansör kaslarda hipertoni, +/-
opistotonus, stupor, iritabilite, retrokollis
Hastaların bir kısmında acil kan değişimi ile SSS
bulguları geri dönebilir
EVRE 3 (1 haVadan büyük bebek) : İrreversibl SSS
hasarı, opistotonus-retrokollis, 0z sesle ağlama,
beslenememe, apne, ateş, derin stupor-koma,
nöbet ve ölüm
 Bilirubin ensefalopa1sinde
klinik sınıflandırma
1. Klasik kernikterus
2. İşitsel kernikterus
3. Motor kernikterus
4. Hafif “subtle” kernikterus (BIND)
Erken tanı ve tedavi ile kern ikterus
önlenebilir !
 Amaç
Ciddi/ağır hiperbilirubinemi gelişimini önlemek
Bilirubin ensefalopaAsi ve kernikterus gelişimini
önlemek
Anksiyeteyi azaltmak
Anne sütünün azalmasını önlemek,
Gereksiz tedavi ve maliyeA azaltmak
Pediatrics 2004
Ağır hiperbilirubinemi ve nörotoksisite
risk faktörleri
 conducted for previously unaddressed topics (photother
adverse effects and effectiveness of intravenous immune
to prevent exchange transfusion).

CLINICAL PRACTICE GUIDELINE
New evidence indicates that neurotoxicity does n
RESULTS:
Guidance for the Clinician in Rendering Pediatric Care
bilirubin concentrations are well above the 2004 exchan
thresholds. Systematic review of phototherapy-associate
found limited and/or inconsistent evidence of late adver
including cancer and epilepsy. IVIG has unclear benefit fo
exchange transfusion in infants with isoimmune hemolyt
Clinical Practice Guideline
a possible Revision:
risk of harm due to necrotizing enterocolitis.
Management ofLIMITATIONS:
Hyperbilirubinemia in
The search was limited to 1 database and English
the Newborn Infant 35
CONCLUSIONS: or More
Accumulated evidence justified narrowly rais
Weeks of Gestation
treatment thresholds in the updated clinical practice gui
evidence for effectiveness with some evidence of risk of
Alex R. Kemper, MD, MPH, MS, FAAP,a Thomas B. Newman, MD, MPH, FAAP,b Jonathan L. Slaughter, MD, MPH, FAAP,c
M. Jeffrey Maisels, MB BCh, DSc, FAAP,d Jon F. Watchko, MD, FAAP,e Stephen M. Downs, MD, MS,f
Randall W. Grout, MD, MS, FAAP,g David G. Bundy, MD, MPH, FAAP,h Ann R. Stark, MD, FAAP,i Debra L. Bogen, MD, FAAP,j
the revised recommendations to limit IVIG use.
Alison Volpe Holmes, MD, MPH, FAAP,k Lori B. Feldman-Winter, MD, MPH, FAAP,l Vinod K. Bhutani, MD,m
Steven R. Brown, MD, FAAFP,n Gabriela M. Maradiaga Panayotti, MD, FAAP,o Kymika Okechukwu, MPA,p
Peter D. Rappo, MD, FAAP,q Terri L. Russell, DNP, APN, NNP-BCr

More than 80% of newborn infants will have some degree of a
Division of Primary Care Pediatrics, Nationwide Children’s Hospital,
aundice.1,2 Careful monitoring of all newborn infants and the PEDIATRICS VolumeColumbus,150, numberof3,
Ohio; bDepartments September
Epidemiology 2022:e2022058865
& Biostatistics and
application of appropriate treatments are essential, because high Pediatrics, School of Medicine, University of California, San Francisco, San
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bilirubin concentrations can cause acute bilirubin from http://publications.aap.org/pediatrics/article-pdf/150/3/e2022058865/1358160/peds_2022
encephalopathy and Francisco, California; cCenter for Perinatal Research, Nationwide Children’s
by guest
kernicterus.3 Kernicterus is a permanent disabling neurologic condition
Hospital, Columbus, Ohio; dDepartment of Pediatrics, Oakland University
on 08 September 2022 William Beaumont School of Medicine, Rochester, Michigan; eDepartment
characterized by some or all of the following: choreoathetoid cerebral of Pediatrics, University of Pittsburgh School of Medicine, Pittsburgh,
Pennsylvania; fDepartment of Pediatrics, Wake Forest University, Winston-
palsy, upward gaze paresis, enamel dysplasia of deciduous teeth,
Salem, North Carolina; gChildren’s Health Services Research, Indiana
sensorineural hearing loss or auditory neuropathy or dyssynchrony University School of Medicine, Indianapolis, Indiana; hMedical University of
4 South Carolina, Charleston, South Carolina; iDepartment of Neonatology,
spectrum disorder, and characteristic findings on brain MRI. A
Beth Israel Deaconess Medical Center, Boston, Massachusetts; jAllegheny
description of kernicterus nomenclature is provided in Appendix A. County Health Department, Pittsburgh, Pennsylvania; kGeisel School of
 TÜRK NEONATOLOJİ DERNEĞİ

YENİDOĞAN SARILIKLARINDA
YAKLAŞIM, İZLEM VE TEDAVİ
REHBERİ
2022 GÜNCELLEMESİ

Prof. Dr. Asuman ÇOBAN Prof. Dr. Münevver KAYNAK TÜRKMEN Prof. Dr. Tuğba GÜRSOY
 Tanımlamalar
Anlamlı hiperbilirubinemi
Postnatal yaş ve sarılık nedenine göre değişen, fototerapi gerek8ren bilirubin düzeyi
(8pik olarak TSB ≥ 12 mg/dL).
Ciddi hiperbilirubinemi
Postnatal yaş ve sarılık nedenine göre değişen, kan de- ğişimi sınırına yakın veya
sınırında bilirubin düzeyi (TSB ≥ 20 mg/dL) veya hafif derecede akut bilirubin
ensefalopa8si erken bulgularıyla seyreden herhangi bir yüksek TSB düzeyi.
Aşırı hiperbilirubinemi
Kan değişimi sınırında bilirubin düzeyi (TSB ≥ 25 mg/dL), veya hafif-orta derecede akut
bilirubin ensefalopa8si bulgularıyla seyreden herhangi bir yüksek TSB düzeyi.
Zararlı veya kriUk hiperbilirubinemi
Kan değişimi sınırında bilirubin düzeyi (TSB ≥ 30 mg/dL), veya orta-ağır derecede akut
bilirubin ensefalopa8si bulgularıyla seyreden herhangi bir yüksek TSB düzeyi
 Topics addressed in the previous clinical
DATA EXTRACTION:
(2004) and follow-up commentary (2009) were update
evidence published through March 2022. Evidence revie
conducted for previously unaddressed topics (photothe
Ciddi hiperbilirubinemi için risk faktörleri (AAP)
adverse effects and effectiveness of intravenous immun
to prevent exchange transfusion).
New evidence indicates that neurotoxicity does
RESULTS:

1. bilirubinyüksek-risk
Taburculuk öncesi TSB veya TcB’nin concentrations areorta-yüksek
veya well above the 2004 exchan
risk
bölgesinde olması thresholds. Systematic review of phototherapy-associate
found limited and/or inconsistent evidence of late adve
2. Erken doğum (< 40 haQa)
including cancer and epilepsy. IVIG has unclear benefit f
3. Tümüyle anne sütüyle beslenme (emzirme
exchange iyi değil
transfusion ve/veya
in infants withaşırı tarW hemoly
isoimmune
kaybı %8-10) a possible risk of harm due to necrotizing enterocolitis.
4. İlk 24 saaZe gözle görülen sarılık
LIMITATIONS: The search was limited to 1 database and Englis
5. İzoimmun ya da diğer hemoli\k hastalıklar (Örn G6PD eks)
CONCLUSIONS: Accumulated evidence justified narrowly rai
6. Önceki kardeşte/ebeveyndetreatment
FT/kan değişimi gerek\ren sarılık
thresholds in the updated clinical practice gu
7. Sefal hematom veya geniş ekimozlar
evidence for effectiveness with some evidence of risk of
8. Down sendromu the revised recommendations to limit IVIG use.
9. Taburculuk öncesi FT
10. Diyabe\k annenin makrozomik bebeği

PEDIATRICS Volume 150, number 3, September 2022:e2022058865
Downloaded from http://publications.aap.org/pediatrics/article-pdf/150/3/e2022058865/1358160/peds_202
by guest
 değildir.
hazları geliştirme, akıllı telefonlarla yenidoğan sarılığının
10.Tedavi gerektiren tüm sarılıklı bebeklerde total bilirubin
Ciddi hiperbilirubinemi için risk faktörleri
ölçülmesi çalışmaları mevcuttur (79-81). Bu çalışmalarda
ile birlikte direkt bilirubin ölçülmedir.
skleral konjunktival bilirubin ile TSB arasında iyi korelas-
(TND) 11.Direkt hiperbilirubinemi her zaman patolojiktir.

Tablo 4. Ağır hiperbilirubinemi için önemli risk faktörleri

Taburcu olmadan önceki TSB veya TcB düzeyi yüksek veya yüksek –orta risk bölgesinde olması
Düşük gebelik haftası ( 15 mg/dL
ise TSB ölçülmeli
Bilirubin araş hızı ilk 24 saa\e > 0.3 mg/dL/saat veya
24 saa\en sonra > 0.2 mg/dL/saat ise hemolizi düşün
(DAT, ETCO…)
 TCB : Öneriler (TND)
Aşağıdaki durumlarda TSB bakılması önerilir
1. TcB > 13 mg/dL olan bebekler
2. İlk 24 saaXe sarılığın görüldüğü bebekler
3. Tedavi kararı verilen bebekler
4. Fototerapi tedavisi alan bebekler
5. Bhutani eğrisine göre 75. persenBlin üzerinde bilirubin değeri
olanlar
6. TcB düzeyi, önerilen FT değerinin %70’i kadar olan bebekler
 Fototerapi kararı

Gebelik yaşı

Nörotoksisite risk faktörleri
risk factors, and age of the infant concentration should not be that there is a high likelihood of
in hours. (Aggregate Evidence subtracted from the total serum exceeding the threshold after
Quality Grade X, bilirubin concentration when using discharge.22 Those making the
Recommendation) Figs 2 or 3. If the direct-reacting or decision to begin phototherapy below

24

22

20
Total Serum Bilirubin (mg/dL)

18

Phototherapy Thresholds: No Hyperbilirubinemia Neurotoxicity Risk Factors
16

14 Gestational Age
≥ 40 Weeks
12 39 Weeks
38 Weeks
37 Weeks
10
36 Weeks
35 Weeks
8

6
0 12 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240 252 264 276 288 300 312 324 336
(1d) (2d) (3d) (4d) (5d) (6d) (7d) (8d) (9d) (10d) (11d) (12d) (13d) (14d)
Age – hours
(days)

FIGURE 2
Phototherapy thresholds by gestational age and age in hours for infants with no recognized hyperbilirubinemia neurotoxicity risk factors other than gesta
tional age. These thresholds are based on expert opinion rather than strong evidence on when the potential benefits of phototherapy exceed its potential
harms. Use total serum bilirubin concentrations; do not subtract direct-reacting or conjugated bilirubin from the total serum bilirubin. In rare cases of
 20

18

16
Total Serum Bilirubin (mg/dL)

Phototherapy Thresholds: One or More Hyperbilirubinemia Neurotoxicity Risk Factors
14

12

Gestational Age
10
≥ 38 Weeks
37 Weeks
8 36 Weeks
35 Weeks
6

4
0 12 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240 252 264 276 288 300 312 324 336
(1d) (2d) (3d) (4d) (5d) (6d) (7d) (8d) (9d) (10d) (11d) (12d) (13d) (14d)
Age – hours
(days)

GURE 3
ototherapy thresholds by gestational age and age in hours for infants with any recognized hyperbilirubinemia neurotoxicity risk factors other than gesta
nal age. These thresholds are based on expert opinion rather than strong evidence on when the potential benefits of phototherapy exceed its potential
ms. Use total serum bilirubin concentrations; do not subtract the direct-reacting or conjugated bilirubin from the total serum bilirubin. In rare cases of
exceeds the escalation-of-care hydration should be initiated and threshold, management should

Start
(TSB exceeds
escalation of care level)

STAT labs: total and direct serum bilirubin,
CBC, albumin, serum chemistries, type and
At appropriate cross match Acute bilirubin encephalopathy
Yes Yes
location for Notify blood bank OR Urgent exchange
exchange Measure TSB at least every 2 hours Latest TSB at or above the transfusion
transfusion? Intensive phototherapy and PO+IV hydration exchange transfusion threshold?
See IVIG therapy and B/A measurement
No options No

Consult neonatologist for urgent Yes Return to regular
transfer to NICU, directly if TSB below the escalation-of-
phototherapy
possible care level?
guidelines
Intensive phototherapy and
PO+IV hydration during
transfer, if possible No

Continue intensive phototherapy and
PO+IV hydration and measuring TSB
at least every 2 hours

FIGURE 4
Approach to escalation of care. The escalation-of-care threshold is 2 mg/dL below the exchange transfusion threshold. IVIG, intravenous immune globulin;
B/A, bilirubin to albumin ratio.
 28

26
Total Serum Bilirubin (mg/dL)

24

Exchange Transfusion Thresholds: No Hyperbilirubinemia Neurotoxicity Risk Factors
22

20
Gestational Age
≥ 38 Weeks
18 37 Weeks
36 Weeks
35 Weeks
16

14
0 12 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240 252 264 276 288 300 312 324 336
(1d) (2d) (3d) (4d) (5d) (6d) (7d) (8d) (9d) (10d) (11d) (12d) (13d) (14d)
Age − hours
(days)

FIGURE 5
Exchange transfusion thresholds by gestational age for infants with no recognized hyperbilirubinemia neurotoxicity risk factors other than gestational age.
See Fig 4, which describes escalation of care. These thresholds are based on expert opinion rather than strong evidence on when the potential benefits of
escalation of care exceed its potential harms. The stippled lines for the first 24 hours indicate uncertainty because of the wide range of clinical circumstan-
 24

22
Total Serum Bilirubin (mg/dL)

20
Exchange Transfusion Thresholds: 1 or More Hyperbilirubinemia Neurotoxicity Risk Factors

18

Gestational Age
16 ≥ 38 Weeks
37 Weeks
36 Weeks
35 Weeks
14

12
0 12 24 36 48 60 72 84 96 108 120 132 144 156 168 180 192 204 216 228 240 252 264 276 288 300 312 324 336
(1d) (2d) (3d) (4d) (5d) (6d) (7d) (8d) (9d) (10d) (11d) (12d) (13d) (14d)
Age – hours
(days)

IGURE 6
xchange transfusion thresholds by gestational age for infants with any recognized hyperbilirubinemia neurotoxicity risk factors other than gestational
 Start
(TcB or TSB measure in
infant ≥12 hours old)

Determine hour-specific phototherapy threshold based on gestational age
and presence of a known hyperbilirubinemia neurotoxicity risk factor (Table TSB at or above the Yes
2) from Figure 2 or Figure 3 phototherapy Begin phototherapy
Measure TSB if TcB exceeds 3.0 mg/dL below the phototherapy treatment threshold?
threshold or if the TcB is ≥15 mg/dL.
No

Phototherapy threshold minus TcB or TSB Discharge Recommendations
0.1-1.9 mg/dL Age