Neonatal jaundice


 Reference                        Reason for exclusion
 Bracci R, Buonocore G, Garosi G et al. Epidemiologic study of neonatal jaundice. A survey of contributing factors. Acta   Not all babies were jaundiced
 Paediatrica Scandinavica, Supplement 1989; 78:(360)87–92.
 Bratlid D and Winsnes A. Comparison between different methods for determination of bile pigments in icteric serum samples.   Comparison of different methods of measuring
 Scandinavian Journal of Clinical and Laboratory Investigation 1973; 31:(2)231–6.   bile acids
 Bratlid D. Bilirubin toxicity: Pathophysiology and assessment of risk factors. New York State Journal of Medicine 1991;   Overview
 91:(11)489–92.
 Bratlid D. Reserve albumin binding capacity, salicylate saturation index, and red cell binding of bilirubin in neonatal jaundice.   Tests not relevant to this guideline
 Archives of Disease in Childhood 1973; 48:(5)393–7.
 Brito MA, Silva R, Tiribelli C et al. Assessment of bilirubin toxicity to erythrocytes. Implication in neonatal jaundice management.  Laboratory analysis of bilirubin toxicity on serum
 European Journal of Clinical Investigation 2000; 30:(3)239–47.   samples
 Brito MA, Silva RFM, and Brites D. Bilirubin toxicity to human erythrocytes: A review. Clinica Chimica Acta  2006; 374:(1–2)46– Overview
 2.
 Brown AK. Hyperbilirubinemia in black infants. Role of glucose-6-phosphate dehydrogenase deficiency. Clinical Pediatrics 1992;  Overview
 31:(12)712–5.
 Brown WR and Boon WH. Hyperbilirubinemia and kernicterus in glucose-6-phosphate dehydrogenase-deficient infants in   Study examine incidence of jaundice in G6PD
 Singapore. Pediatrics 1968; 41:(6)1055–62.
 Buonocore G, Berti D, Cito G et al. Moderately increased hemolysis in newborn infants with hyperbilirubinemia of unknown   Results of G6PD tests not reported
 etiology. Biology of the Neonate 1983; 44:(4)251–6.
 Casado A, Casado C, Lopez-Fernandez E et al. Enzyme deficiencies in neonates with jaundice. Panminerva Medica 1995;   Babies were not tested for blood group
 37:(4)175–7.                     incompatibility
 Cashore WJ and Oh W. Unbound bilirubin and kernicterus in low-birth-weight infants. Pediatrics 1982; 69:(4)481–5.   Autopsy study on link between unbound bilirubin
                                  and kernicterus in low-birthweight babies
 Cashore WJ, Oh W, Blumberg WE et al. Rapid fluorometric assay of bilirubin and bilirubin binding capacity in blood of jaundiced  Laboratory evaluation of a new method for
 neonates: comparisons with other methods. Pediatrics 1980; 66:(3)411–6.   measuring bilirubin binding capacity
 Chen SH, Chen LY, and Chen JS. Carboxyhemoglobin and serum hepatic enzymes in newborns with hyperbilirubinemia. Taiwan  Babies with G6PD deficiency or blood group
 i Hsueh Hui Tsa Chih - Journal of the Formosan Medical Association 1986; 85:(2)101–8.   incompatibility were excluded
 Chen SH. Endogenous formation of carbon monoxide in Chinese newborn with hyperbilirubinemia. Taiwan i Hsueh Hui Tsa   No test for G6PD deficiency
 Chih - Journal of the Formosan Medical Association 1981; 80:(1)68–77.
 Chen WX, Wong VCN, and Wong KY. Neurodevelopmental outcome of severe neonatal hemolytic hyperbilirubinemia. Journal of Babies with sepsis were excluded
 Child Neurology 2006; 21:(6)474–9.
 Cisowska A, Tichaczek-Goska D, Szozda A et al. The bactericidal activity of complement in sera of children with infectious   Evaluation of bactericidal activity in blood – not
 hyperbilirubinemia. Advances in Clinical and Experimental Medicine 2007; 16:(5)629–34.   relevant to this guideline
 Coban AC, Can G, Kadioglu A et al. Adrenal hemorrhage: A rare cause of severe neonatal jaundice. Pediatric Surgery   Case study
 International 1994; 9:(1–2)123-??
 Corchia C, Sanna MC, Serra C et al. 'Idiopathic' jaundice in Sardinian full-term newborn infants: a multivariate study. Paediatric   Babies with ABO/Rh incompatibility were
 and Perinatal Epidemiology 1993; 7:(1)55–66.   excluded




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