II类药物中生物豁免的鉴定：理论依据与实际案例

Identification of biowaivers among Class II drugs: theoretical justification and practical examples.

作者信息

Rinaki Eleni, Dokoumetzidis Aristides, Valsami Georgia, Macheras Panos

机构信息

Laboratory of Biopharmaceutics and Pharmacokinetics, School of Pharmacy, University of Athens, Athens 15771, Greece.

出版信息

Pharm Res. 2004 Sep;21(9):1567-72. doi: 10.1023/b:pham.0000041450.25106.c8.

DOI:10.1023/b:pham.0000041450.25106.c8

PMID:15497681

Abstract

PURPOSE

To set up a theoretical basis for identifying biowaivers among Class II drugs and apply the methodology developed to nonsteroidal anti-inflammatory drugs (NSAIDs).

METHODS

The dynamics of the two consecutive drug processes dissolution and wall permeation are considered in the time domain of the physiologic transit time using a tube model of the intestinal lumen. The model considers constant permeability along the intestines, a plug flow fluid with the suspended particles moving with the fluid, and dissolution in the small particle limit. The fundamental differential equation of drug dissolution-uptake in the intestines is expressed in terms of the fraction of dose dissolved.

RESULTS

The fundamental parameters, which define oral drug absorption in humans resulting from this analysis, are i) the formulation-related factors, dose, particle radius size, and ii) the drug-related properties, dimensionless solubility/dose ratio (1/q), and effective permeability. Plots of dose as a function of (1/q) for various particle sizes unveil the specific values of these meaningful parameters, which ensure complete absorption for Class II drugs [(1/q) < 1]. A set of NSAIDs were used to illustrate the application of the approach in identifying biowaivers among the NSAIDs.

CONCLUSIONS

The underlying reason for a region of fully absorbed drugs in Class II originates from the dynamic character of the dissolution-uptake processes. The dynamic character of the approach developed allows identification of biowaivers among Class II drugs. Several biowaivers among the NSAIDs were identified using solubility data at pH 5.0 and in fed-state-simulated intestinal fluid at pH 5.0. The relationships of formulation parameters, dose, particle radius, and the drug properties, dimensionless solubility/dose ratio (1/q), and permeability with the fraction of dose absorbed for drugs with low 1/q values [(1/q) < 1] can be used as guidance for the formulation scientist in the development phase.

摘要

目的

为确定II类药物中的生物豁免建立理论基础，并将所开发的方法应用于非甾体抗炎药（NSAIDs）。

方法

使用肠腔的管模型，在生理转运时间的时域内考虑连续两个药物过程（溶解和肠壁渗透）的动力学。该模型考虑沿肠道的恒定渗透性、具有悬浮颗粒并随流体移动的活塞流流体以及小颗粒极限下的溶解。肠道中药物溶解-吸收的基本微分方程以溶解剂量分数表示。

结果

通过该分析确定的决定人体口服药物吸收的基本参数为：i）与制剂相关的因素，剂量、颗粒半径大小；ii）与药物相关的性质，无量纲溶解度/剂量比（1/q）和有效渗透率。各种粒径下剂量作为（1/q）函数的曲线图揭示了这些有意义参数的具体值，这些值确保II类药物完全吸收[（1/q）<1]。使用一组非甾体抗炎药来说明该方法在确定非甾体抗炎药中的生物豁免方面的应用。

结论

II类中存在完全吸收药物区域的根本原因源于溶解-吸收过程的动态特性。所开发方法的动态特性允许识别II类药物中的生物豁免。使用pH 5.0时的溶解度数据以及pH 5.0的 fed-state模拟肠液中的溶解度数据，确定了几种非甾体抗炎药中的生物豁免。对于低1/q值[（1/q）<1]的药物，制剂参数、剂量、颗粒半径以及药物性质、无量纲溶解度/剂量比（1/q）和渗透率与吸收剂量分数之间的关系可在开发阶段为制剂科学家提供指导。

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II类药物中生物豁免的鉴定：理论依据与实际案例

Identification of biowaivers among Class II drugs: theoretical justification and practical examples.

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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