A Semi-physiologically Based Model for Methylphenidate Pharmacokinetics in Adult Humans

Journal of Bioequivalence & Bioavailability Pub Date : 2019-01-01 DOI:10.35248/0975-0851.19.11.390

A. Jackson

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Abstract

To determine if a literature-sourced physiological model for immediate-release (IR) methylphenidate (MPH), with addition of parameters for extended-release (ER) absorption can be adapted for NONMEM analysis to describe extended-release MPH drug products (i.e., Concerta® ER 54 mg tablets and Ritalin-LA® 40 mg capsules) pharmacokinetics (PK) in adults. This semi-physiological model will provide a platform to allow more accurate determination of Cmax in the analysis of methylphenidate plasma data from formulations with complex absorption. Adult reference data for total MPH plasma levels (summation of d- and l- enantiomers) were generated using individual subject parameters from a published NONMEM model for ER MPH (individual subject parameter generated data was used because the true experimental data is proprietary with only the previously-published summary parameters available for public use). The IR physiological model required analysis of both d- and l-MPH enantiomers which were estimated at each time point for the data by calculating the d/l enantiomer ratio from total MPH plasma concentration levels, based upon literature ratio estimates. Absorption was characterized by a fast zero-order and a delayed slow first-order release. Consistent with the literature IR model, two duplicate physiological models were used to describe the d- and l-MPH enantiomers. The mean and variability ratios for the individual subject parameter-generated data/true experimental data were very close to 1.0. The predictive performance of the absorption-modified physiological model and its disposition parameters were demonstrated, as they described both the Concerta® and Ritalin LA® PK and Cmax values very well. The bias was less than 6% for Concerta® peaks while peak 1 for d-Ritalin LA® was 12.9% and peak 2, 7.5%. The IR MPH physiological model, adapted for NONMEM analyses of the ER MPH drug products Concerta® and Ritalin LA® described the individual parameter-generated reference data well for both formulations.

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成人哌甲酯药代动力学的半生理学模型

为了确定文献来源的盐酸哌甲酯(MPH)速释(IR)生理模型，以及添加的缓释(ER)吸收参数是否适用于NONMEM分析，以描述盐酸哌甲酯缓释产品(即Concerta®ER 54 mg片剂和Ritalin-LA®40 mg胶囊)在成人中的药代动力学(PK)。该半生理模型将提供一个平台，允许更准确地测定Cmax，以分析复方哌甲酯血浆数据。总MPH血浆水平的成人参考数据(d-和l-对映体的总和)是使用来自已发表的ER MPH NONMEM模型的个体受试者参数生成的(使用个体受试者参数生成的数据是因为真实的实验数据是专有的，只有先前发表的摘要参数可供公众使用)。红外生理模型需要分析d-和l-MPH对映体，这些对映体在每个时间点的数据通过计算总MPH血浆浓度水平的d/l对映体比率来估计，基于文献比率估计。吸收的特点是快速的零阶释放和延迟的一阶缓慢释放。与文献IR模型一致，我们使用了两个重复的生理模型来描述d-和l-MPH对映体。个体受试者参数生成数据/真实实验数据的平均值和变异性比率非常接近1.0。吸收修饰生理模型及其配置参数的预测性能得到了证明，因为它们可以很好地描述Concerta®和Ritalin LA®的PK和Cmax值。Concerta®峰的偏倚小于6%，而d-Ritalin LA®峰1的偏倚为12.9%，峰2的偏倚为7.5%。红外MPH生理模型适用于ermph药物产品Concerta®和Ritalin LA®的NONMEM分析，该模型很好地描述了两种制剂的单个参数生成的参考数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Bioequivalence & Bioavailability

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