Neonatal jaundice


 Reference                        Reason for exclusion
 Conseil d’Evaluation des Technologies de la Sante. Transcutaneous bilirubinometry in the context of early postnatal discharge   Overview
 (Structured abstract). Health Technology Assessment Database 2008;(3).
 Dai J, Krahn J, and Parry DM. Clinical impact of transcutaneous bilirubinometry as an adjunctive screen for hyperbilirubinemia.   Effectiveness of Minolta  JM-102
 Clinical Biochemistry 1996; 29:(6)581–6.
 De Luca D, Romagnoli C, Tiberi E et al. Skin bilirubin nomogram for the first 96 h of life in a European normal healthy newborn   Development of a nomogram based on
 population, obtained with multiwavelength transcutaneous bilirubinometry. Acta Paediatrica, International Journal of Paediatrics  transcutaneous measurement
 2008; 97:(2)146–50.
 De Luca D, Zecca E, Zuppa AA et al. The joint use of human and electronic eye: Visual assessment of jaundice and   Incomplete data – correlation data or
 transcutaneous bilirubinometry. Turkish Journal of Pediatrics 2008; 50:(5)456–61.   sensitivity/specificity data not reported
 Dinesh D. Review of positive direct antiglobulin tests found on cord blood sampling. Journal of Paediatrics and Child Health   Incomplete data – number of true negative snot
 2005; 41:(9–10)504–10.           reported
 Donzelli G and Pratesi S. Transcutaneous bilirubinometry in healthy preterm newborns. Clinical Biochemistry 2000; 33:(6)505–8.  Study examined the use of JM-102 in preterm
                                  babies
 Engle WD, Jackson GL, Sendelbach D et al. Assessment of a transcutaneous device in the evaluation of neonatal   Not all tests carried out with 1-hour
 hyperbilirubinemia in a primarily Hispanic population. Pediatrics 2002; 110:(1 I)61–7.
 Facchini FP, Mezzacappa MA, Rosa IRM et al. Follow-up of neonatal jaundice in term and late premature newborns. [Portuguese,  Not a comparative study
 English]. Jornal de Pediatria 2007; 83:(4)313–8.
 Flaherman VJ, Ferrara A, and Newman TB. Predicting significant hyperbilirubinaemia using birth weight. Archives of Disease in   Birthweight as a predictor for hyperbilirubinaemia
 Childhood - Fetal and Neonatal Edition 2008; 93:(4)F307-F309.
 Goldman SL, Penalver A, and Penaranda R. Jaundice meter: evaluation of new guidelines. Journal of Pediatrics 1982; 101:(2)253– Poor quality study – EL 3
 6.
 Gonzaba G. Research corner. End tidal carbon monoxide: a new method to detect hyperbilirubinemia in newborns. Newborn   Overview
 and Infant Nursing Reviews 2007; 7:(2)122–8.
 Grohmann K, Roser M, Rolinski B et al. Bilirubin measurement for neonates: comparison of 9 frequently used methods. Pediatrics  Poor quality study – EL 3
 2006; 117:(4)1174–83.
 Gupta PC, Kumari S, Mullick DN et al. Icterometer: a useful screening tool for neonatal jaundice. Indian Pediatrics 1991;   Poor quality study – EL 3
 28:(5)473–6.
 Harish R and Sharma DB. Transcutaneous bilirubinometry in neonates: evaluation of Minolta Air shields jaundicemeter. Indian   Poor quality study – EL 3
 Pediatrics 1998; 35:(3)264–7.
 Hegyi T, Hiatt IM, and Indyk L. Transcutaneous bilirubinometry. I. Correlations in term infants. Journal of Pediatrics 1981;   Poor quality study – EL 3
 98:(3)454–7.
 Ho EY, Lee SY, Chow CB et al.  BiliCheck transcutaneous bilirubinometer: a screening tool for neonatal jaundice in the Chinese   Poor quality study – EL 3
 population. Hong Kong Medical Journal  2006; 12:(2)99–102.
 Ho HT, Ng TK, Tsui KC et al. Evaluation of a new transcutaneous bilirubinometer in Chinese newborns. Archives of Disease in   Poor quality study – EL 3
 Childhood: Fetal and Neonatal Edition 2006; 91:(6)F434-F438.
 Jangaard KA, Curtis H, and Goldbloom RB. Estimation of bilirubin using BiliChek[trademark], a transcutaneous bilirubin   Data not relevant – overestimation an
 measurement device: Effects of gestational age and use of phototherapy. Paediatrics and Child Health 2006; 11:(2)79–83.   underestimation of tests


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