Item type: | Article | ||||
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Journal or Publication Title: | Clinical Microbiology and Infection | ||||
Publisher: | Elsevier | ||||
Place of Publication: | OXFORD | ||||
Date: | 2020 | ||||
Institutions: | Chemistry and Pharmacy > Institute of Pharmacy Chemistry and Pharmacy > Institute of Pharmacy > Group Clinical Pharmacy (Dr. Dorn) | ||||
Identification Number: |
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Keywords: | MONTE-CARLO-SIMULATION; POPULATION PHARMACOKINETICS; PHARMACODYNAMICS; MICRODIALYSIS; PLASMA; Adipose tissue; Anti-infectives; Interstitial space fluid; Linezolid; Microdialysis; Obesity; Pharmacodynamics; Population pharmacokinetics; Probability of target attainment; Target-site | ||||
Dewey Decimal Classification: | 600 Technology > 615 Pharmacy | ||||
Status: | Published | ||||
Refereed: | Yes, this version has been refereed | ||||
Created at the University of Regensburg: | Yes | ||||
Item ID: | 43096 |
Abstract
Objectives: The aim was to characterize linezolid population pharmacokinetics in plasma and interstitial space fluid of subcutaneous adipose tissue (target site) of obese compared with non-obese patients and to determine dosing regimens enabling adequate therapy using Monte Carlo simulations. Methods: In this prospective, parallel group, open-label, controlled, single-centre trial, 30 surgery ...
Abstract
Objectives: The aim was to characterize linezolid population pharmacokinetics in plasma and interstitial space fluid of subcutaneous adipose tissue (target site) of obese compared with non-obese patients and to determine dosing regimens enabling adequate therapy using Monte Carlo simulations. Methods: In this prospective, parallel group, open-label, controlled, single-centre trial, 30 surgery patients (15 obese, 15 non-obese) received 600 mg of intravenous linezolid. A population pharmacokinetic analysis characterizing plasma and microdialysis-derived target site pharmacokinetics was followed by Monte Carlo simulations using twice/thrice daily 600-1200 mg short-term and extended infusions of linezolid. Adequacy of therapy was assessed by the probability of pharmacokinetic/pharmacodynamic target attainment for time and exposure-related indices. Results: In the model, lean body weight and obesity status largely explained between-patient variability in linezolid PK parameters (12.0-44.9%). Both factors caused lower area under the concentration-time curve in typical obese patients in plasma (-20.4%, 95% CI -22.0% to -15.9%) and at target-site (-37.7%, 95% CI -47.1% to -24.2%) compared with non-obese patients. Probability of target attainment showed improvement with increasing linezolid doses. Depending on lean body weight, adequate therapy was partially attained for 900- and 1200-mg linezolid doses and minimum inhibitory concentrations (MICs) <= 2 mg/L (probability of target attainment 62.5-100%) but could not be reached for MIC = 4 mg/L (probability of target attainment <= 82.3%). Additionally, lower linezolid distribution into the target site in obese patients as described above might compromise the plasma-based probability of target attainment analysis. Discussion: This analysis revealed risks of linezolid underdosing in empirical antibiotic therapy of most resistant bacteria for obese and non-obese patients. Doubling the standard dose is associated with adequate probability of target attainment throughout most body masses for MIC <= 2 mg/L. Further clinical studies with adjusted dosing regimens in for example intensive care patients are needed. L. Ehmann, Clin Microbiol Infect 2020;26:1222 (C) 2020 Published by Elsevier Ltd on behalf of European Society of Clinical Microbiology and Infectious Diseases.
Metadata last modified: 29 Sep 2021 07:41