Characterization of Acid Hydrolyzed Taro Boloso-I (Colocasia esculenta Cultivar) Starch as a Diluent in Direct Compression of Tablets.

IF 2.1 Q3 PHARMACOLOGY & PHARMACY
Advances in Pharmacological and Pharmaceutical Sciences Pub Date : 2024-05-29 eCollection Date: 2024-01-01 DOI:10.1155/2024/6560070
Solomon Gashaw, Afewerk Getachew, Fantahun Mola
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Abstract

Corn, wheat, rice, potato, and cassava starches have been widely used as pharmaceutical excipients. However, the search for cost-effective local starch alternatives is necessary due to the availability and usage constraints. In Ethiopia, various plant species, including Taro Boloso-I, have been explored as potential sources of pharmaceutical starch. It is a variety of Colocasia esculenta with a high tuber yield and high starch content. However, the native starch requires modifications to enhance its functionality. Therefore, this study aimed to improve the native starch through acid modification and evaluate its performance as a direct compressible tablet excipient. The native starch was treated with a 6% w/v HCl solution for 192 hours, resulting in acid-modified Taro Boloso-I starch, which was then evaluated for suitability for direct compression. XRD patterns of both the native and modified starch showed characteristic A-type crystals, with significantly higher relative crystallinity observed in the latter. Additionally, the acid-modified starch exhibited a lower moisture content and improved flow properties. The compaction study also demonstrated its improved compactibility (tensile strength: 16.82 kg/cm2), surpassing both the native starch (13.17) and Starch 1500® (11.2). The modified starch also showed a lower lubricant sensitivity compared to the native starch and Starch 1500®. Furthermore, paracetamol tablets made with the modified starch exhibited higher mechanical strength and lower friability in all paracetamol concentrations. It incorporated up to 40% paracetamol while maintaining acceptable tablet characteristics, whereas the native starch and Starch 1500® were limited to 30% (w/w). Based on these findings, the modified starch showed promise as an alternative direct compressible excipient in tablet manufacturing.

酸性水解芋头 Boloso-I (Colocasia esculenta Cultivar)淀粉作为直接压片稀释剂的特性。
玉米、小麦、大米、马铃薯和木薯淀粉已被广泛用作药用辅料。然而,由于供应和使用方面的限制,有必要寻找具有成本效益的本地淀粉替代品。在埃塞俄比亚,包括芋头 Boloso-I 在内的各种植物物种已被探索作为药用淀粉的潜在来源。它是 Colocasia esculenta 的一个品种,块茎产量高,淀粉含量高。然而,原生淀粉需要经过改良才能增强其功能。因此,本研究旨在通过酸改性改善原生淀粉,并评估其作为直接可压缩片剂赋形剂的性能。将原生淀粉用 6% w/v HCl 溶液处理 192 小时,得到酸改性芋头博洛索-I 淀粉,然后评估其是否适合直接压片。原生淀粉和改性淀粉的 XRD 图谱都显示出特征性的 A 型晶体,后者的相对结晶度明显更高。此外,酸改性淀粉的水分含量更低,流动性更好。压实研究也表明其压实性有所改善(抗拉强度:16.82 kg/cm2),超过了原生淀粉(13.17)和 Starch 1500®(11.2)。与本地淀粉和 Starch 1500® 相比,变性淀粉还显示出更低的润滑剂敏感性。此外,使用变性淀粉制成的扑热息痛片剂在所有扑热息痛浓度下都具有更高的机械强度和更低的易碎性。在保持可接受的片剂特性的同时,变性淀粉还能掺入高达 40% 的扑热息痛,而原生淀粉和 Starch 1500® 则只能掺入 30%(重量比)的扑热息痛。基于这些发现,变性淀粉有望成为片剂生产中的一种可直接压缩的替代辅料。
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
CiteScore
4.30
自引率
3.60%
发文量
0
审稿时长
17 weeks
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