Co-Milling: A Successful Approach to Enhance Solubility of a Poorly Soluble Antihypertensive Drug

IF 0.7 Q4 PHARMACOLOGY & PHARMACY
Marwa Malik Kamil, Asmaa Abdelaziz Bayoumi
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引用次数: 0

Abstract

The aim of the work was to enhance the solubilization of Olmesartan-medoxomil (OM) and formulate stable, rapidly-dissolving-tablet formulations. OM, on the other hand, is classified as Biopharmaceutics Classification System (BCS) Class II drug, which indicates that it is characterized by water-insolubility. Therefore, increasing its solubilization has the potential to boost its bioavailability. For the OM evaluation, a new HPLC technique was invented and then validated in accordance with international standards. The formulation of tablets involved co-milling with certain superdisintegrants, specifically croscarmellose sodium (Ac-Di-Sol) and crospovidone in varying percentages, followed by mixing with pH-adjusting substances such as calcium carbonate to increase solubilization in cases where the drug is soluble in alkaline. Following the evaluation of the created formulations, the optimized formulations were selected for further stability assessment. Co-milling process with crospovidone greatly improved the olmesartan release. The optimized formulations were OD11 and OD12, which exhibited fast disintegration, and the release exceeded 90% within 10 min, while the release for Olmesartan medoxomil pure standard was 9.8% after 10 min. The OD11 and OD12 were chosen for further stability assessment and revealed good stability behavior, as the study on optimized formulations revealed that the degradation was less than 5% after storage for six months at 40 °C and 75% relative humidity. Some formulations exhibited good results in terms of disintegration and release. The results of the formulations (OD11 and OD12) suggested that co-grinding with crospovidone may increase the solubilization of OM to greater than 90% after 10 minutes.
共磨:一种提高难溶性抗高血压药物溶解度的成功方法
本研究旨在提高奥美沙坦-美多索米(OM)的增溶性,制备稳定、快速溶出的片剂。另一方面,OM被归类为生物制药分类系统(BCS)第II类药物,这表明它具有不溶于水的特点。因此,增加其增溶性有可能提高其生物利用度。本文提出了一种新的高效液相色谱评价方法,并按照国际标准进行了验证。片剂的配方包括与某些超级崩解剂,特别是交联纤维素钠(Ac-Di-Sol)和交联维酮以不同百分比共磨,然后与碳酸钙等调节ph的物质混合,以增加药物可溶于碱性的溶解性。在对创建的配方进行评价之后,选择优化的配方进行进一步的稳定性评估。与交叉聚维酮共磨工艺大大提高了奥美沙坦的释放度。优化后的处方为OD11和OD12,崩解速度快,10 min内释放量超过90%,而美多索米奥美沙坦纯标准品10 min释放量为9.8%。选择OD11和OD12进行稳定性评价,优化后的处方在40℃、75%相对湿度条件下贮存6个月,降解率小于5%,稳定性良好。一些配方在崩解和释放方面表现出良好的效果。OD11和OD12的实验结果表明,与交叉维酮共磨可使OM的增溶率在10分钟后提高到90%以上。
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来源期刊
INDONESIAN JOURNAL OF PHARMACY
INDONESIAN JOURNAL OF PHARMACY PHARMACOLOGY & PHARMACY-
CiteScore
1.20
自引率
0.00%
发文量
38
审稿时长
12 weeks
期刊介绍: The journal had been established in 1972, and online publication was begun in 2008. Since 2012, the journal has been published in English by Faculty of Pharmacy Universitas Gadjah Mada (UGM) Yogyakarta Indonesia in collaboration with IAI (Ikatan Apoteker Indonesia or Indonesian Pharmacist Association) and only receives manuscripts in English. Indonesian Journal of Pharmacy is Accredited by Directorate General of Higher Education. The journal includes various fields of pharmaceuticals sciences such as: -Pharmacology and Toxicology -Pharmacokinetics -Community and Clinical Pharmacy -Pharmaceutical Chemistry -Pharmaceutical Biology -Pharmaceutics -Pharmaceutical Technology -Biopharmaceutics -Pharmaceutical Microbiology and Biotechnology -Alternative medicines.
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