Bilirubin binding in jaundiced newborns: from bench to bedside?

Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin ( B T ) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND. Methods: The unbound (free) bilirubi...

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Published in	Pediatric research Vol. 84; no. 4; pp. 494 - 498
Main Authors	Ahlfors, Charles E., Bhutani, Vinod K., Wong, Ronald J., Stevenson, David K.
Format	Journal Article
Language	English
Published	New York Nature Publishing Group US 01.10.2018 Nature Publishing Group
Subjects	Jaundice Medicine Medicine & Public Health Newborn babies Pediatric Surgery Pediatrics Review Article
Online Access	Get full text
ISSN	0031-3998 1530-0447 1530-0447
DOI	10.1038/s41390-018-0010-3

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Abstract	Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin ( B T ) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND. Methods: The unbound (free) bilirubin ( B f ) measured at these B T thresholds provides additional information about the risk for BIND. B f can be readily adapted to clinical use by determining B f population parameters at current B T thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of B T , B f , and two empiric constants, the maximum B T ( B Tmax ) and the corresponding equilibrium association bilirubin constant (K). Results: B Tmax and K provide the variables needed to accurately estimate B f at B T < B Tmax to obtain B f at threshold B T in patient samples. Once B f population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher B f at the threshold B T compared with the population) and increased risk of BIND. Conclusion: The BBP can also be used in jaundice screening to better identify the actual B T at which intervention would be prudent. The BBP is used with current B T thresholds to better identify the risk of BIND and whether and when to intervene.
AbstractList	Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (BT) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND.BACKGROUNDBilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (BT) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND.The unbound (free) bilirubin (Bf) measured at these BT thresholds provides additional information about the risk for BIND. Bf can be readily adapted to clinical use by determining Bf population parameters at current BT thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of BT, Bf, and two empiric constants, the maximum BT (BTmax) and the corresponding equilibrium association bilirubin constant (K).METHODSThe unbound (free) bilirubin (Bf) measured at these BT thresholds provides additional information about the risk for BIND. Bf can be readily adapted to clinical use by determining Bf population parameters at current BT thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of BT, Bf, and two empiric constants, the maximum BT (BTmax) and the corresponding equilibrium association bilirubin constant (K).BTmax and K provide the variables needed to accurately estimate Bf at BT < BTmax to obtain Bf at threshold BT in patient samples. Once Bf population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher Bf at the threshold BT compared with the population) and increased risk of BIND.RESULTSBTmax and K provide the variables needed to accurately estimate Bf at BT < BTmax to obtain Bf at threshold BT in patient samples. Once Bf population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher Bf at the threshold BT compared with the population) and increased risk of BIND.The BBP can also be used in jaundice screening to better identify the actual BT at which intervention would be prudent. The BBP is used with current BT thresholds to better identify the risk of BIND and whether and when to intervene.CONCLUSIONThe BBP can also be used in jaundice screening to better identify the actual BT at which intervention would be prudent. The BBP is used with current BT thresholds to better identify the risk of BIND and whether and when to intervene. Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin ( B T ) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND. Methods: The unbound (free) bilirubin ( B f ) measured at these B T thresholds provides additional information about the risk for BIND. B f can be readily adapted to clinical use by determining B f population parameters at current B T thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of B T , B f , and two empiric constants, the maximum B T ( B Tmax ) and the corresponding equilibrium association bilirubin constant (K). Results: B Tmax and K provide the variables needed to accurately estimate B f at B T < B Tmax to obtain B f at threshold B T in patient samples. Once B f population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher B f at the threshold B T compared with the population) and increased risk of BIND. Conclusion: The BBP can also be used in jaundice screening to better identify the actual B T at which intervention would be prudent. The BBP is used with current B T thresholds to better identify the risk of BIND and whether and when to intervene. Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (B ) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND. The unbound (free) bilirubin (B ) measured at these B thresholds provides additional information about the risk for BIND. B can be readily adapted to clinical use by determining B population parameters at current B thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of B , B , and two empiric constants, the maximum B (B ) and the corresponding equilibrium association bilirubin constant (K). B and K provide the variables needed to accurately estimate B at B < B to obtain B at threshold B in patient samples. Once B population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher B at the threshold B compared with the population) and increased risk of BIND. The BBP can also be used in jaundice screening to better identify the actual B at which intervention would be prudent. The BBP is used with current B thresholds to better identify the risk of BIND and whether and when to intervene. Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (BT) concentration thresholds for phototherapy and/or exchange transfusion poorly predict BIND. Methods: The unbound (free) bilirubin (Bf) measured at these BT thresholds provides additional information about the risk for BIND. Bf can be readily adapted to clinical use by determining Bf population parameters at current BT thresholds. These parameters can be established using a plasma bilirubin binding panel (BBP) consisting of BT, Bf, and two empiric constants, the maximum BT (BTmax) and the corresponding equilibrium association bilirubin constant (K). Results: BTmax and K provide the variables needed to accurately estimate Bf at BT < BTmax to obtain Bf at threshold BT in patient samples. Once Bf population parameters are known, the BBP in a newborn can be used to identify poor bilirubin binding (higher Bf at the threshold BT compared with the population) and increased risk of BIND. Conclusion: The BBP can also be used in jaundice screening to better identify the actual BT at which intervention would be prudent. The BBP is used with current BT thresholds to better identify the risk of BIND and whether and when to intervene.
Author	Bhutani, Vinod K. Stevenson, David K. Ahlfors, Charles E. Wong, Ronald J.
Author_xml	– sequence: 1 givenname: Charles E. surname: Ahlfors fullname: Ahlfors, Charles E. email: ligand@centurytel.net organization: Department of Pediatrics Division of Neonatal and Developmental Medicine, Stanford University School of Medicine – sequence: 2 givenname: Vinod K. surname: Bhutani fullname: Bhutani, Vinod K. organization: Department of Pediatrics Division of Neonatal and Developmental Medicine, Stanford University School of Medicine – sequence: 3 givenname: Ronald J. surname: Wong fullname: Wong, Ronald J. organization: Department of Pediatrics Division of Neonatal and Developmental Medicine, Stanford University School of Medicine – sequence: 4 givenname: David K. surname: Stevenson fullname: Stevenson, David K. organization: Department of Pediatrics Division of Neonatal and Developmental Medicine, Stanford University School of Medicine
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Snippet	Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma... Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (B )... Background: Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma... Bilirubin-induced neurologic dysfunction (BIND) is a spectrum of preventable neurological sequelae in jaundiced newborns. Current total plasma bilirubin (BT)...
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SubjectTerms	Jaundice Medicine Medicine & Public Health Newborn babies Pediatric Surgery Pediatrics Review Article
Title	Bilirubin binding in jaundiced newborns: from bench to bedside?
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