加巴喷丁在佐剂性关节炎诱导的炎性痛觉过敏大鼠模型中的药代动力学/药效学关系

Pharmacokinetic/Pharmacodynamic Relationship of Gabapentin in a CFA-induced Inflammatory Hyperalgesia Rat Model.

作者信息

Larsen Malte Selch, Keizer Ron, Munro Gordon, Mørk Arne, Holm René, Savic Rada, Kreilgaard Mads

机构信息

Department of Drug Design and Pharmacology, Faculty of Health and Medical Sciences, University of Copenhagen, Universitetsparken 2, 2100, Copenhagen, Denmark.

Department of Bioengineering and Therapeutic Sciences, University of California, 1700 4th Street,, San Francisco, California, 94580, USA.

出版信息

Pharm Res. 2016 May;33(5):1133-43. doi: 10.1007/s11095-016-1859-7. Epub 2016 Jan 15.

DOI:10.1007/s11095-016-1859-7

PMID:26780452

Abstract

PURPOSE

Gabapentin displays non-linear drug disposition, which complicates dosing for optimal therapeutic effect. Thus, the current study was performed to elucidate the pharmacokinetic/pharmacodynamic (PKPD) relationship of gabapentin's effect on mechanical hypersensitivity in a rat model of CFA-induced inflammatory hyperalgesia.

METHODS

A semi-mechanistic population-based PKPD model was developed using nonlinear mixed-effects modelling, based on gabapentin plasma and brain extracellular fluid (ECF) time-concentration data and measurements of CFA-evoked mechanical hyperalgesia following administration of a range of gabapentin doses (oral and intravenous).

RESULTS

The plasma/brain ECF concentration-time profiles of gabapentin were adequately described with a two-compartment plasma model with saturable intestinal absorption rate (K m = 44.1 mg/kg, V max = 41.9 mg/h∙kg) and dose-dependent oral bioavailability linked to brain ECF concentration through a transit compartment. Brain ECF concentration was directly linked to a sigmoid E max function describing reversal of hyperalgesia (EC 50, plasma = 16.7 μg/mL, EC 50, brain = 3.3 μg/mL).

CONCLUSIONS

The proposed semi-mechanistic population-based PKPD model provides further knowledge into the understanding of gabapentin's non-linear pharmacokinetics and the link between plasma/brain disposition and anti-hyperalgesic effects. The model suggests that intestinal absorption is the primary source of non-linearity and that the investigated rat model provides reasonable predictions of clinically effective plasma concentrations for gabapentin.

摘要

目的

加巴喷丁表现出非线性药物处置，这使得为达到最佳治疗效果而进行给药变得复杂。因此，本研究旨在阐明在CFA诱导的炎性痛觉过敏大鼠模型中，加巴喷丁对机械性超敏反应作用的药代动力学/药效动力学（PKPD）关系。

方法

基于加巴喷丁血浆和脑细胞外液（ECF）的时间-浓度数据以及一系列加巴喷丁剂量（口服和静脉注射）给药后CFA诱发的机械性痛觉过敏的测量结果，使用非线性混合效应建模开发了一个基于群体的半机制PKPD模型。

结果

加巴喷丁的血浆/脑细胞外液浓度-时间曲线可用具有饱和肠吸收速率（K m = 44.1 mg/kg，V max = 41.9 mg/h∙kg）的二室血浆模型以及通过转运室与脑细胞外液浓度相关的剂量依赖性口服生物利用度来充分描述。脑细胞外液浓度直接与描述痛觉过敏逆转的S型E max函数相关（血浆EC 50 = 16.7 μg/mL，脑EC 50 = 3.3 μg/mL）。

结论

所提出的基于群体的半机制PKPD模型为理解加巴喷丁的非线性药代动力学以及血浆/脑处置与抗痛觉过敏作用之间的联系提供了更多知识。该模型表明肠吸收是非线性的主要来源，并且所研究的大鼠模型为加巴喷丁临床有效血浆浓度提供了合理的预测。

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加巴喷丁在佐剂性关节炎诱导的炎性痛觉过敏大鼠模型中的药代动力学/药效学关系

Pharmacokinetic/Pharmacodynamic Relationship of Gabapentin in a CFA-induced Inflammatory Hyperalgesia Rat Model.

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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