OBJECTIVE: To provide normative data for transcutaneous bilirubin (TcB) measurements in healthy term and late-preterm Indian neonates during first 72 h of age using a multiwavelength reflectance transcutaneous bilimeter. METHODS: TcB measurements were performed in healthy neonates (gestation 35 wk), in a well-baby ward, using a multiwavelength transcutaneous bilimeter (BiliCheck, SpectRx Inc, Norcross, GA). Age-specific percentiles values for each 6-h epoch starting at 0 h of age were calculated and an age-specific TcB nomogram was developed using different percentile values. Diagnostic ability of each percentile curve for prediction of hyperbilirubinemia, defined as requirement of phototherapy, was calculated. RESULTS: We performed 925 TcB measurements on 625 healthy newborn infants (gestation: 35 to 41 wk; age: 0 to 72 h; mean birth weight: 2808+/-437 g). TcB increased in a linear manner with maximum rate of rise observed during first 24 h of age (50th percentile: 0.22 mg/dL/h). 50th percentile curve of age-specific TcB nomogram had high negative predictive value (99.8%) and acceptable positive predictive value (16.4%) for prediction of hyperbilirubinemia. CONCLUSION: We provided age-specific nomogram of TcB for first 72 h of age in healthy term and late-preterm Indian neonates. Percentile curves and rate of rise in TcB may help in identification of neonates at low-risk of development of hyperbilirubinemia facilitating their safer discharge from the hospital. Diagnostic utility of this nomogram for predicting hyperbilirubinemia needs to be tested in a separate validation cohort.
OBJECTIVE: To provide normative data for transcutaneous bilirubin (TcB) measurements in healthy term and late-preterm Indian neonates during first 72 h of age using a multiwavelength reflectance transcutaneous bilimeter. METHODS:TcB measurements were performed in healthy neonates (gestation 35 wk), in a well-baby ward, using a multiwavelength transcutaneous bilimeter (BiliCheck, SpectRx Inc, Norcross, GA). Age-specific percentiles values for each 6-h epoch starting at 0 h of age were calculated and an age-specific TcB nomogram was developed using different percentile values. Diagnostic ability of each percentile curve for prediction of hyperbilirubinemia, defined as requirement of phototherapy, was calculated. RESULTS: We performed 925 TcB measurements on 625 healthy newborn infants (gestation: 35 to 41 wk; age: 0 to 72 h; mean birth weight: 2808+/-437 g). TcB increased in a linear manner with maximum rate of rise observed during first 24 h of age (50th percentile: 0.22 mg/dL/h). 50th percentile curve of age-specific TcB nomogram had high negative predictive value (99.8%) and acceptable positive predictive value (16.4%) for prediction of hyperbilirubinemia. CONCLUSION: We provided age-specific nomogram of TcB for first 72 h of age in healthy term and late-preterm Indian neonates. Percentile curves and rate of rise in TcB may help in identification of neonates at low-risk of development of hyperbilirubinemia facilitating their safer discharge from the hospital. Diagnostic utility of this nomogram for predicting hyperbilirubinemia needs to be tested in a separate validation cohort.
Authors: Stanley Ip; Mei Chung; John Kulig; Rebecca O'Brien; Robert Sege; Stephan Glicken; M Jeffrey Maisels; Joseph Lau Journal: Pediatrics Date: 2004-07 Impact factor: 7.124
Authors: D K Stevenson; A A Fanaroff; M J Maisels; B W Young; R J Wong; H J Vreman; J R MacMahon; C Y Yeung; D S Seidman; R Gale; W Oh; V K Bhutani; L H Johnson; M Kaplan; C Hammerman; H Nakamura Journal: Pediatrics Date: 2001-07 Impact factor: 7.124
Authors: Bolajoko O Olusanya; Tinuade A Ogunlesi; Praveen Kumar; Nem-Yun Boo; Iman F Iskander; Maria Fernanda B de Almeida; Yvonne E Vaucher; Tina M Slusher Journal: BMC Pediatr Date: 2015-04-12 Impact factor: 2.125