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Appendix J: Excluded studies
Reference Reason for exclusion
Dani C, Martelli E, Bertini G et al. Plasma bilirubin level and oxidative stress in preterm infants. Archives of Disease in Childhood Tests not relevant to this guideline
Fetal and Neonatal Edition 2003; 88:(2)F119-F123.
Deshmukh VV and Sharma KD. Deficiency of erythrocyte G-6-PD as a cause of neonatal jaundice in India. Indian Pediatrics Three case studies
1968; 5:(9)401–5.
Doxiadis SA, Karaklis A, Valaes T et al. Risk of severe jaundice in Glucose-6-Phosphate-Dehydrogenase deficiency of the Not all babies tested for ABO incompatibility
newborn. Differences in population groups. Lancet 1964; 2:(7371)1210–2.
Ebbesen F, Andersson C, Verder H et al. Extreme hyperbilirubinaemia in term and near-term infants in Denmark. Acta Paediatrica Babies not tested for G6PD
2005; 94:(1)59–64.
Ebbesen F. Recurrence of kernicterus in term and near-term infants in Denmark. Acta Paediatrica, International Journal of Cases were not tested for G6PD deficiency
Paediatrics 2000; 89:(10)1213–7.
Emamghorashi F, Zendegani N, Rabiee S et al. Evaluation of urinary tract infection in newborns with jaundice in south of Iran. Jaundice as a predictor of UTI
Iranian Journal of Medical Sciences 2008; 33:(1)17–21.
Esbjorner E, Larsson P, Leissner P et al. The serum reserve albumin concentration for monoacetyldiaminodiphenyl sulphone and Test not relevant to this guideline
auditory evoked responses during neonatal hyperbilirubinaemia. Acta Paediatrica Scandinavica 1991; 80:(4)406–12.
Esbjorner E. Albumin binding properties in relation to bilirubin and albumin concentrations during the first week of life. Acta Incomplete data
Paediatrica Scandinavica 1991; 80:(4)400–5.
Eshaghpour E, Oski FA, and Williams M. The relationship of erythrocyte glucose-6-phosphate dehydrogenase deficiency to Study on the impact of G6PD on exchange
byperbilirubinemia in Negro premature infants. Journal of Pediatrics 1967; 70:(4)595–601. transfusion levels
Eslami Z and Sheikhha MH. Investigation of urinary tract infection in neonates with hyperbilirubinemia. Journal of Medical Jaundice as a predictor for Urinary Tract Infections
Sciences 2007; 7:(5)909–12.
Etzioni A, Shoshani G, Diamond E et al. Unconjugated hyperbilirubinaemia in hypertrophic pyloric stenosis, an enigma. Not all subjects had jaundice
Zeitschrift fur Kinderchirurgie 1986; 41:(5)272–4.
Fakhraee SH, Haji-Ebrahim-Tehrani F, Amid MH et al. Results of urine and blood cultures in healthy jaundiced newborns: Making Tests for incidence of infections in babies with
the correct choice. Archives of Iranian Medicine 2002; 5:(2)88–90. jaundice
Falcao AS, Fernandes A, Brito MA et al. Bilirubin-induced inflammatory response, glutamate release, and cell death in rat cortical Animal test
astrocytes are enhanced in younger cells. Neurobiology of Disease 2005; 20:(2)199–206.
Feld LG, Langford DJ, and Schwartz GJ. The effect of neonatal hyperbilirubinemia on the measurement of plasma creatinine. Study on effect of jaundice on plasma creatinine
Clinical Pediatrics 1984; 23:(3)154–6.
Feng CS, Wan CP, Lau J et al. Incidence of ABO haemolytic disease of the newborn in a group of Hong Kong babies with severe Babies were only tested for ABO incompatibility
neonatal jaundice. Journal of Paediatrics and Child Health 1990; 26:(3)155–7.
Finni K, Simila S, Koivisto M et al. Cholic acid, chenodeoxycholic acid, alpha-1-fetoprotein and alpha-1-antitrypsin serum Study for a single syndrome in prolonged jaundice
concentrations in breast-fed infants with prolonged jaundice. European Journal of Pediatrics 1982; 138:(1)53–5.
Finni K, Simila S, Koivisto M et al. Serum cholic acid and chenodeoxycholic acid concentrations in neonatal hyperbilirubinemia. Study for a single syndrome in prolonged jaundice
Biology of the Neonate 1981; 40:(5–6)264–8.
Fok TF, Lau SP, and Hui CW. Neonatal jaundice: its prevalence in Chinese babies and associating factors. Australian Paediatric Babies born by caesarean section were excluded
Journal 1986; 22:(3)215–9.
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