Preparation and Evaluation of Amorphous Solid Dispersion of Etoricoxib, Employing A Fast Approach for Polymer Selection.

Anti-inflammatory & anti-allergy agents in medicinal chemistry Pub Date : 2025-09-01 DOI:10.2174/0118715230357451250812171047

Bandenawaz M Shaikh, Jitendra W Gajbe, Ashwini R Madgulkar, Mangesh R Bhalekar, Minakshi B Shinde

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Abstract

Background: Nonsteroidal anti-inflammatory drugs (NSAIDs) are commonly used to manage pain and inflammation but are associated with gastrointestinal and cardiovascular risks, especially with COX-2 inhibitors. Topical delivery systems offer a safer alternative by minimizing systemic exposure; however, poor solubility and limited skin penetration remain challenges. Enhancing solubility through solid dispersion and incorporating it into a gel formulation may improve permeability and therapeutic effectiveness, addressing the need for safer and more efficient topical NSAID delivery.

Introduction: This investigation aimed to enhance the solubility and dissolution rate of poorly water-soluble etoricoxib through the development of solid dispersions using the kneading method.

Method: A suitable carrier was selected from a pool of candidates based on polarised microscopy analysis. The influence of a solubilizer on amorphization was evaluated. Solid dispersions of Etoricoxib and its corresponding physical mixtures, incorporating or excluding the solubilizer, were prepared at varying drug-to-carrier ratios. Yield, drug content, saturation solubility, and in vitro dissolution profiles of these formulations were determined. Solid-state characterization using Fourier Transform-Infrared (FTIR), X-ray diffraction (XRD), Scanning electron microscopy (SEM), and differential scanning calorimetry (DSC) techniques was conducted.

Result: FTIR spectra indicated the formation of intermolecular hydrogen bonds within the dispersions. XRD, SEM, and DSC analysis confirmed the amorphous transition of crystalline etoricoxib in all the prepared solid dispersions. In comparison to pure etoricoxib and its physical mixes, the produced solid dispersions showed significantly improved dissolution and solubility, Discussion: Solid dispersion technology effectively enhanced the solubility and dissolution of poorly water-soluble etoricoxib. Polarised microscopy also proved valuable for rapid excipient screening. However, the study was limited by the narrow range of solubilizers tested. While Poloxamer 407 was selected for its availability and untapped potential, broader screening of advanced solubilizers could offer improved outcomes.

Conclusion: The solubility increased from 99.08 to 296.8 μg/ml and the dissolution rose from 69.32% to 98.07%. These findings suggest that the kneading method and Poloxamer successfully produced amorphous solid dispersions of etoricoxib with significantly enhanced solubility and dissolution properties, potentially improving its bioavailability.

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依托昔布非晶态固体分散体的制备及快速聚合物选择评价。

背景：非甾体抗炎药（NSAIDs）通常用于治疗疼痛和炎症，但与胃肠道和心血管风险相关，尤其是COX-2抑制剂。局部给药系统通过最大限度地减少全身暴露提供了更安全的选择；然而，溶解性差和皮肤渗透有限仍然是挑战。通过固体分散增强溶解度，并将其纳入凝胶制剂中，可以提高渗透性和治疗效果，解决了更安全和更有效的局部非甾体抗炎药给药的需求。前言：本研究旨在通过捏合法制备固体分散体，提高难水溶性依托昔布的溶解度和溶出率。方法：根据偏光显微镜分析，从候选载体中选择合适的载体。评价了增溶剂对非晶化的影响。依托昔布的固体分散体及其相应的物理混合物（含或不含增溶剂）以不同的药载比制备。测定了这些制剂的收率、药物含量、饱和溶解度和体外溶出度。采用傅里叶变换红外（FTIR）、x射线衍射（XRD）、扫描电子显微镜（SEM）和差示扫描量热（DSC）技术进行固态表征。结果：FTIR光谱显示在分散体内形成了分子间氢键。XRD、SEM和DSC分析证实，在所制备的固体分散体中，依托昔布晶体均发生了非晶态转变。与纯依托昔布及其物理混合物相比，制备的固体分散体的溶解性和溶解度明显提高。讨论：固体分散技术有效地提高了水溶性差的依托昔布的溶解性和溶解度。偏光显微镜也被证明是有价值的快速辅料筛选。然而，该研究受到测试增溶剂范围狭窄的限制。虽然选择poloxam407是因为它的可用性和未开发的潜力，但更广泛的筛选先进的增溶剂可以提供更好的结果。结论：溶解度由99.08提高到296.8 μg/ml，溶出度由69.32%提高到98.07%。这些发现表明，揉制方法和波洛沙姆成功地制备了依托昔布的无定形固体分散体，其溶解度和溶解性能显著提高，有可能提高其生物利用度。

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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Anti-inflammatory & anti-allergy agents in medicinal chemistry

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