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采用体外-计算机模拟-体内方法预测速尿速释和缓释口服剂型的体内药代动力学特征。

Prediction of in-vivo pharmacokinetic profile for immediate and modified release oral dosage forms of furosemide using an in-vitro-in-silico-in-vivo approach.

作者信息

Otsuka Keiichi, Wagner Christian, Selen Arzu, Dressman Jennifer

机构信息

Institute of Pharmaceutical Technology, Goethe University, Frankfurt am Main, Germany.

出版信息

J Pharm Pharmacol. 2015 May;67(5):651-65. doi: 10.1111/jphp.12365. Epub 2015 Feb 3.

DOI:10.1111/jphp.12365
PMID:25644429
Abstract

OBJECTIVES

To develop a physiologically based pharmacokinetic (PBPK) model for furosemide immediate release (IR) tablets and modified release (MR) capsules by coupling biorelevant dissolution testing results with pharmacokinetic (PK) and physiologic parameters, and to investigate the key factors influencing furosemide absorption using simulation approaches and the PBPK model.

METHODS

Using solubility, dissolution kinetics, gastrointestinal (GI) parameters and disposition parameters, a PBPK model for furosemide was developed with STELLA software. Solubility and dissolution profiles for both formulations were evaluated in biorelevant and compendial media. The simulated plasma profiles were compared with in-vivo profiles using point estimates of area under plasma concentration-time curve, maximal concentration after the dose and time to maximal concentration after the dose.

KEY FINDINGS

Simulated plasma profiles of both furosemide IR tablets and MR capsules were similar to the observed in-vivo profile in terms of PK parameters. Sensitivity analysis of the IR tablet model indicated that both the gastric emptying and absorption rate have an influence on the plasma profile. For the MR capsules, the sensitivity analysis suggested that the release rate in the small intestine, gastric emptying and the absorption rate all have an influence on the plasma profile.

CONCLUSIONS

A predictive model to describe both IR and MR dosage forms containing furosemide was attained. Because sensitivity analysis of the model is able to identify key factors influencing the plasma profile, this in-vitro-in-silico-in-vivo approach could be a useful tool for facilitating formulation development of drug products.

摘要

目的

通过将生物相关溶出度测试结果与药代动力学(PK)和生理参数相结合,开发速尿速释(IR)片和缓释(MR)胶囊的基于生理的药代动力学(PBPK)模型,并使用模拟方法和PBPK模型研究影响速尿吸收的关键因素。

方法

利用溶解度、溶出动力学、胃肠道(GI)参数和处置参数,使用STELLA软件开发了速尿的PBPK模型。在生物相关和药典介质中评估了两种制剂的溶解度和溶出曲线。使用血浆浓度-时间曲线下面积、给药后最大浓度和给药后达到最大浓度的时间的点估计值,将模拟的血浆曲线与体内曲线进行比较。

主要发现

速尿IR片和MR胶囊的模拟血浆曲线在PK参数方面与观察到的体内曲线相似。IR片模型的敏感性分析表明,胃排空和吸收速率均对血浆曲线有影响。对于MR胶囊,敏感性分析表明,小肠中的释放速率、胃排空和吸收速率均对血浆曲线有影响。

结论

获得了一个描述含速尿的IR和MR剂型的预测模型。由于该模型的敏感性分析能够识别影响血浆曲线的关键因素,这种体外-计算机模拟-体内方法可能是促进药品制剂开发的有用工具。

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