Neonatal jaundice


 Reference                        Reason for exclusion
 Kilic M, Turgut M, Taskin E et al. Nitric oxide levels and antioxidant enzyme activities in jaundices of premature infants. Cell   Babies with ABO or Rh incompatibility were
 Biochemistry and Function 2004; 22:(5)339–42.   excluded
 Kirk JM. Neonatal jaundice: a critical review of the role and practice of bilirubin analysis. Annals of Clinical Biochemistry 2008;   Overview
 45:(Pt 5)452–62.
 Knudsen A. The influence of the reserve albumin concentration and pH on the cephalocaudal progression of jaundice in   Babies were not pre-selected for jaundice
 newborns. Early Human Development 1991; 25:(1)37–41.
 Kulkarni SV, Merchant RH, Gupte SC et al. Clinical significance of serum and cerebro spinal fluid bilirubin indices in neonatal   Test (cerebro-spinal fluid bilirubin) not relevant to
 jaundice. Indian Pediatrics 1989; 26:(12)1202–8.   this guideline
 Kumar A, Pant P, Basu S et al. Oxidative stress in neonatal hyperbilirubinemia. Journal of Tropical Pediatrics 2007; 53:(1)69–71.  Test not relevant to this guideline
 Kumral A, Genc S, Genc K et al. Hyperbilirubinemic serum is cytotoxic and induces apoptosis in murine astrocytes. Biology of the Study examining the effect of hyperbilirubinaemic
 Neonate 2005; 87:(2)99–104.      serum on murine astrocytees
 Lai HC, Lai MP, and Leung KS. Glucose-6-phosphate dehydrogenase deficiency in Chinese. Journal of Clinical Pathology 1968;   Only tested for G6PD
 21:(1)44–7.
 Lee HC, Fang SB, Yeung CY et al. Urinary tract infections in infants: comparison between those with conjugated vs unconjugated  Comparison of urinary tract infection rates in
 hyperbilirubinaemia. Annals of Tropical Paediatrics 2005; 25:(4)277–82.   conjugated and unconjugated
                                  hyperbilirubinaemia
 Lee KS and Gartner LM. Management of unconjugated hyperbilirubinemia in the newborn. Seminars in Liver Disease 1983;   Overview
 3:(1)52–64.
 Lee WS, McKiernan PJ, Beath SV et al. Bile bilirubin pigment analysis in disorders of bilirubin metabolism in early infancy.   Study for a single syndrome in prolonged jaundice
 Archives of Disease in Childhood 2001; 85:(1)38–42.
 Leung AK. Screening of jaundiced neonates for glucose-6-phosphate dehydrogenase deficiency. Southern Medical Journal 1987;   Babies were not tested for blood group
 80:(2)217–8.                     incompatibility
 Lie-Injo LE, Virik HK, Lim PW et al. Red cell metabolism and severe neonatal jaundice in West Malaysia. Acta Haematologica   Babies with isoimmunisation were excluded
 1977; 58:(3)152–60.
 Lin M, Shieh SH, Hwang FY et al. The Le(a) antigen and neonatal hyperbilirubinemia in Taiwan. Vox Sanguinis 1995; 69:(2)131– Babies with blood group incompatibility or G6PD
 4.                               were excluded
 Linder N, Yatsiv I, Tsur M et al. Unexplained neonatal jaundice as an early diagnostic sign of septicemia in the newborn. Journal  Test not relevant to guideline
 of Perinatology 1988; 8:(4)325–7.
 MacKinlay GA. Jaundice persisting beyond 14 days after birth. British Medical Journal 1993; 306:(6890)1426–7.   Overview
 Madan N and Sood SK. Role of G6PD, ABO incompatibility, low birth weight and infection in neonatal hyperbilirubinaemia.   Babies with Rh incompatibility were excluded
 Tropical and Geographical Medicine 1987; 39:(2)163–8.
 Madan N, Sundaram KR, Bhargava SK et al. Glucose-6-phosphate dehydrogenase deficiency and neonatal hyperbilirubinaemia.   Babies were not tested for blood group
 Indian Journal of Medical Research 1989; 90:306–13.   incompatibility
 Maisels MJ and Kring E. Risk of sepsis in newborns with severe hyperbilirubinemia. Pediatrics 1992; 90:(5)741–3.   Babies were not tested for G6PD deficiency
 Maisels MJ, Newman TB, Garcia FJ et al. Neonatal Jaundice and Urinary Tract Infections. Pediatrics 2003; 112:(5)1213–4.   Correspondence





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