Solubility-permeability interplay of hydrotropic solubilization of piroxicam.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-05-13 DOI:10.1080/03639045.2024.2349576
Nidhi Nainwal, Sunil Jawla, Ranjit Singh, Surojit Banerjee, Vikas Anand Saharan
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Abstract

Objectives: In this research paper, an investigation has been made to assess the simultaneous effect of a solubility enhancement approach, i.e., hydrotropy on the solubility and apparent permeability of piroxicam. The solubility of piroxicam (PRX) a BCS (biopharmaceutics classification system) class II drug has been increased using a mixed hydrotropy approach. This study is based on identifying the pattern of solubility-permeability interplay and confirming whether every solubility gain results in a concomitant decrease in permeability or permeability remains unaffected.

Method: Solid dispersions of PRX were formulated using two hydrotropes, viz., sodium benzoate (SB) and piperazine (PP) by solvent evaporation method. A comprehensive 32factorial design was employed to study the effect of hydrotropes on the solubility and permeability of PRX. Subsequently, PRX tablets containing these solid dispersions were formulated and evaluated.

Key findings: SB and PP displayed a significant increase in the solubility of PRX ranging from 0.99 to 2.21 mg/mL for F1-F9 batches attributed to the synergistic effect of hydrotropes. However, there is a reduction in PRX permeability with increasing hydrotrope levels. The decline in permeability was notably less pronounced compared to the simultaneous rise in aqueous solubility of PRX.

Conclusion: An evident tradeoff between permeability and solubility emerged through the mixed hydrotropic solubilization for PRX. As PRX has generally higher intrinsic permeability, it has been assumed that this permeability loss will not affect the overall absorption of PRX. However, it may affect the absorption of drugs with limited permeability. Therefore, solubility permeability interplay should be investigated during solubility enhancement.

吡罗昔康水溶性与渗透性之间的相互作用
研究目的在这篇研究论文中,研究人员评估了一种溶解度增强方法(即水解法)对吡罗昔康的溶解度和表观渗透性的同时影响。采用混合水托法提高了吡罗昔康(PRX)(一种 BCS(生物制药分类系统)二类药物)的溶解度。本研究旨在确定溶解度与渗透性之间的相互作用模式,并确认溶解度的增加是否会导致渗透性随之降低,或者渗透性是否不受影响:方法:采用溶剂蒸发法,使用苯甲酸钠(SB)和哌嗪(PP)这两种水化剂配制了PRX的固体分散体。采用 32 因子综合设计法研究了水托品对 PRX 溶解度和渗透性的影响。随后,对含有这些固体分散体的 PRX 片剂进行了配制和评估:在 F1-F9 批次中,SB 和 PP 显著提高了 PRX 的溶解度,从 0.99 毫克/毫升到 2.21 毫克/毫升不等。然而,随着氢化曲普含量的增加,PRX 的渗透性会降低。与同时增加的 PRX 水溶性相比,渗透性的下降并不明显:结论:通过对 PRX 的混合水溶解,渗透性和溶解度之间出现了明显的权衡。由于 PRX 的固有渗透性通常较高,因此可以认为这种渗透性损失不会影响 PRX 的整体吸收。然而,它可能会影响渗透性有限的药物的吸收。因此,在提高溶解度时应研究溶解度与渗透性之间的相互作用。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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