A new model for ionizable drug dissolution in intestinal bicarbonate buffer

IF 3.7 3区医学 Q2 CHEMISTRY, MEDICINAL

Journal of pharmaceutical sciences Pub Date : 2025-02-20 DOI:10.1016/j.xphs.2025.103702

Jozef Al-Gousous , Adrin Jalali Sohi , Niloufar Salehi , Gordon L. Amidon , Peter Langguth

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引用次数: 0

Abstract

In order to achieve the desired effect in vivo, drugs taken orally must first be dissolved in the gastrointestinal tract. With the majority of the commercially available drugs having acidic and/or basic groups, ionization and intestinal buffering are important factors underlying adequate dissolution and, accordingly, bioavailability. The aim of this work was therefore to develop a dissolution model that properly takes these factors into account when dealing with the intestinal bicarbonate buffer. Based on the assumptions that, during dissolution, steady state is reached instantaneously, all the reactions are at equilibrium save for the interconversion between H₂CO₃ and CO₂, and diffusion of the reactants occurs over a boundary layer of a defined thickness h, a system of differential algebraic equations was developed and solved numerically using Wolfram Mathematica. The model provided very good predictions for flux values obtained from different literature sources, while involving less simplifying assumptions compared to previous models, thus enhancing its accuracy and making it a proper and promising approach for simulating dissolution in intestinal media.

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肠内碳酸氢盐缓冲液中可电离药物溶出的新模型。

为了在体内达到预期的效果，口服的药物必须首先溶解在胃肠道中。由于大多数市售药物具有酸性和/或碱性基团，因此电离和肠道缓冲是充分溶解和相应的生物利用度的重要因素。因此，这项工作的目的是建立一个溶解模型，在处理肠道碳酸氢盐缓冲液时适当地考虑到这些因素。基于溶解过程中瞬间达到稳态，除H2CO3和CO2之间的相互转化外所有反应均处于平衡状态，以及反应物在厚度为h的边界层上扩散的假设，建立了一套微分代数方程组，并利用Wolfram Mathematica进行了数值求解。该模型对来自不同文献来源的通量值提供了非常好的预测，同时与以前的模型相比，该模型涉及的简化假设较少，从而提高了其准确性，使其成为模拟肠道介质溶解的合适且有前景的方法。

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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来源期刊

Journal of pharmaceutical sciences 医学-化学综合

CiteScore

7.30

自引率

13.20%

发文量

367

审稿时长

33 days

期刊介绍： The Journal of Pharmaceutical Sciences will publish original research papers, original research notes, invited topical reviews (including Minireviews), and editorial commentary and news. The area of focus shall be concepts in basic pharmaceutical science and such topics as chemical processing of pharmaceuticals, including crystallization, lyophilization, chemical stability of drugs, pharmacokinetics, biopharmaceutics, pharmacodynamics, pro-drug developments, metabolic disposition of bioactive agents, dosage form design, protein-peptide chemistry and biotechnology specifically as these relate to pharmaceutical technology, and targeted drug delivery.