基于生理学的拉莫三嗪药代动力学PK-Sim模型在预测药物相互作用和剂量调整影响中的应用

IF 0.8 Q4 PHARMACOLOGY & PHARMACY

Journal of Pharmacology & Pharmacotherapeutics Pub Date : 2022-06-01 DOI:10.1177/0976500X221111455

M. Farhan, Prathvi Rani, Fatimazahra Moledina, Thomas George, Haritha Tummala, S. Mallayasamy

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引用次数: 1

摘要

目的建立基于拉莫三嗪（LTG）生理学的药代动力学（PBPK）模型（LTG-PBPK），并将其与南亚裔印度患者的临床数据进行比较，利用该模型了解LTG的药物相互作用并探索最佳剂量。方法和材料使用PK-Sim软件平台开发PBPK模型，并使用来自印度研究的LTG血浆浓度数据进行鉴定。选择欧洲人口数据库作为软件中的患者设置。LTG的物理化学数据和酶动力学数据均来自文献。给药方案与之前的研究一致。还模拟了药物与卡马西平和丙戊酸钠相互作用的相互作用模型。结果大多数模型预测的LTG稳态浓度-时间曲线都在观察到的浓度范围内。开发的模型经过了适当的鉴定。药物相互作用模型用于评估LTG的药代动力学特征的诱导和抑制的影响。结论使用欧洲人口数据库开发的PBPK模型的预测血浆浓度与印度患者的数据非常相似。所开发的LTG PBPK模型可用于预测药物相互作用的影响，并可产生适当的LTG剂量。

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Application of Physiologically Based Pharmacokinetic Modeling of Lamotrigine Using PK-Sim in Predicting the Impact of Drug Interactions and Dosage Adjustment

Objectives To build a lamotrigine (LTG) physiologically based pharmacokinetic (PBPK) model (LTG PBPK) and compare it to the clinical data from South Asian Indian patients and use this model to understand the drug interactions of LTG and explore the optimal doses. Methods and Material The PBPK model was developed using the PK-Sim software platform and qualified with LTG plasma concentration data from an Indian study. The European population database was chosen as the patient setting in the software. Physiochemical data of LTG and enzyme kinetic data were incorporated from the literature. Dosing protocols were as per the previous study. Interaction models for drug interactions with carbamazepine and valproate were also simulated. Results Most of the model predicted concentration-time profiles of LTG at steady-state were well within the observed concentrations. The developed models were suitably qualified. The drug interaction model was used to assess the impact of induction and inhibition of the pharmacokinetic profile of LTG. Conclusions The predicted plasma concentrations of the developed PBPK models using the European population database were very similar to the data from Indian patients. The developed LTG PBPK models are applicable in predicting the impact of drug interactions and can yield appropriate LTG doses to be administered.

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来源期刊

Journal of Pharmacology & Pharmacotherapeutics PHARMACOLOGY & PHARMACY-

CiteScore

0.40

自引率

0.00%

发文量