Abstract
Glomerular filtration (GF) and active tubular secretion (ATS) contribute to renal drug elimination, with the latter remaining understudied across the pediatric age range. Therefore, we systematically analyzed the influence of transporter ontogeny on the relative contribution of GF and ATS to renal clearance CLR for drugs with different properties in children. A physiology-based model for CLR in adults was extrapolated to the pediatric population by including maturation functions for the system-specific parameters. This model was used to predict GF and ATS for hypothetical drugs with a range of drug-specific properties, including transporter-mediated intrinsic clearance (CLint,T) values, that are substrates for renal secretion transporters with different ontogeny patterns. To assess the impact of transporter ontogeny on ATS and total CLR, a percentage prediction difference (%PD) was calculated between the predicted CLR in the presence and absence of transporter ontogeny. The contribution of ATS to CLR ranges between 41 and 90% in children depending on fraction unbound and CLint,T values. If ontogeny of renal transporters is < 0.2 of adult values, CLR predictions are unacceptable (%PD > 50%) for the majority of drugs regardless of the pediatric age. Ignoring ontogeny patterns of secretion transporters increasing with age in children younger than 2 years results in CLR predictions that are not systematically acceptable for all hypothetical drugs (%PD > 50% for some drugs). This analysis identified for what drug-specific properties and at what ages the contribution of ATS on total pediatric CLR cannot be ignored. Drugs with these properties may be sensitive in vivo probes to investigate transporter ontogeny.
Highlights
Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.The Netherlands. 5 Department of Development and Regeneration, KU Leuven, Leuven, Belgium. 6 Department of Pharmaceutical and Pharmacological Sciences, KULeuven, Leuven, Belgium. 7 Department of Clinical Pharmacy, St
Maturation functions from literature were included for plasma concentrations of human serum albumin (HSA) and α-acid glycoprotein (AGP) [8], Glomerular filtration rate (GFR) [9], QR [10], hematocrit [10], kidney weight [10], and relative ontogeny for transporter-mediated intrinsic clearance
OntT was fixed at 1, meaning that results show the influence of maturation of system-specific parameters other than transporter ontogeny on CLR
Summary
Department of Development and Regeneration, KU Leuven, Leuven, Belgium. Department of Pharmaceutical and Pharmacological Sciences, KU. Department of Clinical Pharmacy, St. Antonius Hospital, Nieuwegein, The Netherlands. Processes underlying renal clearance (CLR) include glomerular filtration (GF), active tubular secretion (ATS), reabsorption, and renal metabolism. Maturation of GF has been extensively studied and quantified in children. Less is known about the impact of maturation in the other process on CLR, partly due to the lack of specific biomarkers to distinguish between the activity of different transporters and to the overlap in specificity of transporters for different substrates Together with GF, ATS is one of the major contributing pathways for CLR; ontogeny of ATS is the focus of the current analysis
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