住院患者中利奈唑胺诱导血小板减少症的群体药代动力学和药效学

Population pharmacokinetics and pharmacodynamics of linezolid-induced thrombocytopenia in hospitalized patients.

作者信息

Tsuji Yasuhiro, Holford Nicholas H G, Kasai Hidefumi, Ogami Chika, Heo Young-A, Higashi Yoshitsugu, Mizoguchi Akiko, To Hideto, Yamamoto Yoshihiro

机构信息

Department of Medical Pharmaceutics, Faculty of Pharmaceutical Sciences, University of Toyama, Toyama, Japan.

Department of Pharmacology and Clinical Pharmacology, University of Auckland, Auckland, New Zealand.

出版信息

Br J Clin Pharmacol. 2017 Aug;83(8):1758-1772. doi: 10.1111/bcp.13262. Epub 2017 Mar 31.

DOI:10.1111/bcp.13262

PMID:28186644

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5510085/

Abstract

AIMS

Thrombocytopenia is among the most important adverse effects of linezolid treatment. Linezolid-induced thrombocytopenia incidence varies considerably but has been associated with impaired renal function. We investigated the pharmacodynamic mechanism (myelosuppression or enhanced platelet destruction) and the role of impaired renal function (RF) in the development of thrombocytopenia.

METHODS

The pharmacokinetics of linezolid were described with a two-compartment distribution model with first-order absorption and elimination. RF was calculated using the expected creatinine clearance. The decrease platelets by linezolid exposure was assumed to occur by one of two mechanisms: inhibition of the formation of platelets (PDI) or stimulation of the elimination (PDS) of platelets.

RESULTS

About 50% of elimination was found to be explained by renal clearance (normal RF). The population mean estimated plasma protein binding of linezolid was 18% [95% confidence interval (CI) 16%, 20%] and was independent of the observed concentrations. The estimated mixture model fraction of patients with a platelet count decreased due to PDI was 0.97 (95% CI 0.87, 1.00), so the fraction due to PDS was 0.03. RF had no influence on linezolid pharmacodynamics.

CONCLUSION

We have described the influence of weight, renal function, age and plasma protein binding on the pharmacokinetics of linezolid. This combined pharmacokinetic, pharmacodynamic and turnover model identified that the most common mechanism of thrombocytopenia associated with linezolid is PDI. Impaired RF increases thrombocytopenia by a pharmacokinetic mechanism. The linezolid dose should be reduced in RF.

摘要

目的

血小板减少是利奈唑胺治疗最重要的不良反应之一。利奈唑胺所致血小板减少的发生率差异很大，但与肾功能受损有关。我们研究了药效学机制（骨髓抑制或血小板破坏增强）以及肾功能受损在血小板减少发生中的作用。

方法

采用具有一级吸收和消除的二室分布模型描述利奈唑胺的药代动力学。使用预期的肌酐清除率计算肾功能。利奈唑胺暴露导致血小板减少被假定通过两种机制之一发生：抑制血小板形成（PDI）或刺激血小板消除（PDS）。

结果

约50%的消除被发现可由肾清除率（正常肾功能）解释。利奈唑胺的群体平均血浆蛋白结合率估计为18%[95%置信区间（CI）16%，20%]，且与观察到的浓度无关。因PDI导致血小板计数降低的患者估计混合模型分数为0.97（95%CI 0.87，1.00），因此因PDS导致的分数为0.03。肾功能对利奈唑胺的药效学没有影响。

结论

我们描述了体重、肾功能、年龄和血浆蛋白结合对利奈唑胺药代动力学的影响。这种药代动力学、药效学和周转率联合模型确定，与利奈唑胺相关的血小板减少最常见机制是PDI。肾功能受损通过药代动力学机制增加血小板减少。肾功能受损时应降低利奈唑胺剂量。

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