Population pharmacokinetic modelling of total and unbound cefazolin plasma concentrations as a guide for dosing in preterm and term neonates

R. F.W. De Cock; A. Smits; K. Allegaert; J. de Hoon; V. Saegeman; M. Danhof; C. A.J. Knibbe

doi:10.1093/jac/dkt527

Population pharmacokinetic modelling of total and unbound cefazolin plasma concentrations as a guide for dosing in preterm and term neonates

R. F.W. De Cock
, A. Smits
, K. Allegaert
, J. de Hoon
, V. Saegeman
, M. Danhof
, C. A.J. Knibbe^*

^*Corresponding author for this work

University Hospitals Leuven
Leiden University
KU Leuven

Research output: Contribution to journal › Article › Academic › peer-review

39 Citations (Scopus)

Abstract

Objectives:

Cefazolin is frequently administered for antimicrobial prophylaxis and treatment of infections. In neonates, pharmacokinetic observations are limited and dosing regimens variable. The aim of this study was to describe the pharmacokinetics of cefazolin in neonates based on total and unbound concentrations to optimize cefazolin dosing.

Methods:

Thirty-six neonates [median birth body weight 2720 (range 540-4200) g, current body weight (cBW) 2755 (830-4200) g and postnatal age (PNA) 9 (1-30) days] receiving intravenous cefazolin (50 mg/kg/8 h) were included. Based on 119 total and unbound plasma concentrations, a population pharmacokinetic analysis with a covariate analysis was performed. Monte Carlo simulations were performed aiming for unbound concentrations above an MIC of 8 mg/L (>60% of the time) in all patients.

Results:

A one-compartment pharmacokinetic modelwas developed in which total and unbound concentrations were linked by maximum protein binding (B_max) of 136 mg/L and a dissociation constant (KD) for cefazolin protein binding of 46.5 mg/L. cBW was identified as covariate for volume of distribution (V), bBW and PNA for clearance and albumin plasma concentration for B_max, explaining 50%, 58% and 41% of inter-individual variability in V, clearance and B_max, respectively. Based on Monte Carlo simulations, a body weight-and PNA-adapted dosing regimen that resulted in similar exposure across different weight and age groups was proposed.

Conclusions:

A neonatal pharmacokinetic model taking into account total and unbound cefazolin concentrations with saturable plasma protein binding was identified. As cBWand PNAwere the most important covariates, these may be used for individualized dosing in neonates.

Original language	English
Article number	dkt527
Pages (from-to)	1330-1338
Number of pages	9
Journal	Journal of Antimicrobial Chemotherapy
Volume	69
Issue number	5
DOIs	https://doi.org/10.1093/jac/dkt527
Publication status	Published - May 2014
Externally published	Yes

Bibliographical note

Funding Information:
The work was partly supported by the Fund for Scientific Research, Flanders (Belgium) (FWO Vlaanderen), with a Fundamental Clinical Investigatorship (grant number 1800214N) to K. A.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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10.1093/jac/dkt527

Cite this

@article{de6462b0c28245e2b7a6f0560c822ba6,

title = "Population pharmacokinetic modelling of total and unbound cefazolin plasma concentrations as a guide for dosing in preterm and term neonates",

abstract = "Objectives: Cefazolin is frequently administered for antimicrobial prophylaxis and treatment of infections. In neonates, pharmacokinetic observations are limited and dosing regimens variable. The aim of this study was to describe the pharmacokinetics of cefazolin in neonates based on total and unbound concentrations to optimize cefazolin dosing. Methods: Thirty-six neonates [median birth body weight 2720 (range 540-4200) g, current body weight (cBW) 2755 (830-4200) g and postnatal age (PNA) 9 (1-30) days] receiving intravenous cefazolin (50 mg/kg/8 h) were included. Based on 119 total and unbound plasma concentrations, a population pharmacokinetic analysis with a covariate analysis was performed. Monte Carlo simulations were performed aiming for unbound concentrations above an MIC of 8 mg/L (>60\% of the time) in all patients. Results: A one-compartment pharmacokinetic modelwas developed in which total and unbound concentrations were linked by maximum protein binding (Bmax) of 136 mg/L and a dissociation constant (KD) for cefazolin protein binding of 46.5 mg/L. cBW was identified as covariate for volume of distribution (V), bBW and PNA for clearance and albumin plasma concentration for Bmax, explaining 50\%, 58\% and 41\% of inter-individual variability in V, clearance and Bmax, respectively. Based on Monte Carlo simulations, a body weight-and PNA-adapted dosing regimen that resulted in similar exposure across different weight and age groups was proposed. Conclusions:A neonatal pharmacokinetic model taking into account total and unbound cefazolin concentrations with saturable plasma protein binding was identified. As cBWand PNAwere the most important covariates, these may be used for individualized dosing in neonates.",

author = "\{De Cock\}, \{R. F.W.\} and A. Smits and K. Allegaert and \{de Hoon\}, J. and V. Saegeman and M. Danhof and Knibbe, \{C. A.J.\}",

note = "Funding Information: The work was partly supported by the Fund for Scientific Research, Flanders (Belgium) (FWO Vlaanderen), with a Fundamental Clinical Investigatorship (grant number 1800214N) to K. A.",

year = "2014",

month = may,

doi = "10.1093/jac/dkt527",

language = "English",

volume = "69",

pages = "1330--1338",

journal = "Journal of Antimicrobial Chemotherapy",

issn = "0305-7453",

publisher = "Oxford University Press",

number = "5",

}

TY - JOUR

T1 - Population pharmacokinetic modelling of total and unbound cefazolin plasma concentrations as a guide for dosing in preterm and term neonates

AU - De Cock, R. F.W.

AU - Smits, A.

AU - Allegaert, K.

AU - de Hoon, J.

AU - Saegeman, V.

AU - Danhof, M.

AU - Knibbe, C. A.J.

N1 - Funding Information: The work was partly supported by the Fund for Scientific Research, Flanders (Belgium) (FWO Vlaanderen), with a Fundamental Clinical Investigatorship (grant number 1800214N) to K. A.

PY - 2014/5

Y1 - 2014/5

N2 - Objectives: Cefazolin is frequently administered for antimicrobial prophylaxis and treatment of infections. In neonates, pharmacokinetic observations are limited and dosing regimens variable. The aim of this study was to describe the pharmacokinetics of cefazolin in neonates based on total and unbound concentrations to optimize cefazolin dosing. Methods: Thirty-six neonates [median birth body weight 2720 (range 540-4200) g, current body weight (cBW) 2755 (830-4200) g and postnatal age (PNA) 9 (1-30) days] receiving intravenous cefazolin (50 mg/kg/8 h) were included. Based on 119 total and unbound plasma concentrations, a population pharmacokinetic analysis with a covariate analysis was performed. Monte Carlo simulations were performed aiming for unbound concentrations above an MIC of 8 mg/L (>60% of the time) in all patients. Results: A one-compartment pharmacokinetic modelwas developed in which total and unbound concentrations were linked by maximum protein binding (Bmax) of 136 mg/L and a dissociation constant (KD) for cefazolin protein binding of 46.5 mg/L. cBW was identified as covariate for volume of distribution (V), bBW and PNA for clearance and albumin plasma concentration for Bmax, explaining 50%, 58% and 41% of inter-individual variability in V, clearance and Bmax, respectively. Based on Monte Carlo simulations, a body weight-and PNA-adapted dosing regimen that resulted in similar exposure across different weight and age groups was proposed. Conclusions:A neonatal pharmacokinetic model taking into account total and unbound cefazolin concentrations with saturable plasma protein binding was identified. As cBWand PNAwere the most important covariates, these may be used for individualized dosing in neonates.

AB - Objectives: Cefazolin is frequently administered for antimicrobial prophylaxis and treatment of infections. In neonates, pharmacokinetic observations are limited and dosing regimens variable. The aim of this study was to describe the pharmacokinetics of cefazolin in neonates based on total and unbound concentrations to optimize cefazolin dosing. Methods: Thirty-six neonates [median birth body weight 2720 (range 540-4200) g, current body weight (cBW) 2755 (830-4200) g and postnatal age (PNA) 9 (1-30) days] receiving intravenous cefazolin (50 mg/kg/8 h) were included. Based on 119 total and unbound plasma concentrations, a population pharmacokinetic analysis with a covariate analysis was performed. Monte Carlo simulations were performed aiming for unbound concentrations above an MIC of 8 mg/L (>60% of the time) in all patients. Results: A one-compartment pharmacokinetic modelwas developed in which total and unbound concentrations were linked by maximum protein binding (Bmax) of 136 mg/L and a dissociation constant (KD) for cefazolin protein binding of 46.5 mg/L. cBW was identified as covariate for volume of distribution (V), bBW and PNA for clearance and albumin plasma concentration for Bmax, explaining 50%, 58% and 41% of inter-individual variability in V, clearance and Bmax, respectively. Based on Monte Carlo simulations, a body weight-and PNA-adapted dosing regimen that resulted in similar exposure across different weight and age groups was proposed. Conclusions:A neonatal pharmacokinetic model taking into account total and unbound cefazolin concentrations with saturable plasma protein binding was identified. As cBWand PNAwere the most important covariates, these may be used for individualized dosing in neonates.

UR - https://www.scopus.com/pages/publications/84898413159

U2 - 10.1093/jac/dkt527

DO - 10.1093/jac/dkt527

M3 - Article

C2 - 24492261

AN - SCOPUS:84898413159

SN - 0305-7453

VL - 69

SP - 1330

EP - 1338

JO - Journal of Antimicrobial Chemotherapy

JF - Journal of Antimicrobial Chemotherapy

IS - 5

M1 - dkt527

ER -

Population pharmacokinetic modelling of total and unbound cefazolin plasma concentrations as a guide for dosing in preterm and term neonates

Abstract

Bibliographical note

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