Aspirin Derivatives Exploration: A Review on Comparison Study with Parent Drug

Azni Izwati Hamdan, Norsyafikah Asyilla Nordin, Dike Dandari Sukmana
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Abstract

In recent decades, drug modification is no longer unusual in the pharmaceutical world as living things are evolving in response to environmental changes. A non-steroidal anti-inflammatory drug (NSAID) such as aspirin is a common over-the-counter drug that can be purchased without medical prescription. Aspirin can inhibit the synthesis of prostaglandin by blocking the cyclooxygenase (COX) which contributes to its properties such as anti-inflammatory, antipyretic, antiplatelet and etc. It is also being considered as a chemopreventive agent due to its antithrombotic actions through the COX’s inhibition. However, the prolonged use of aspirin can cause heartburn, ulceration, and gastro-toxicity in children and adults. This review article highlights the recent derivatives of aspirin, either to reduce the risk of side effects or to obtain better physicochemical properties. Aspirin derivatives can be synthesized in various pathways and have been reported to give better biological activities such as anticancer, anti-inflammatory, antibacterial, antioxidant, etc., compared to the parent drug. The presence of significant moieties such as nitric oxide (NO), NOSH, thiourea, azo, amide, and chalcone on the modified aspirin play important roles in achieving desired biological activities. The addition of the halogen in the modification has also become a preference among researchers as it also affects the actions due to its ability to hinder bacterial activity. This review is also sharing about the bulkiness effect of certain aspirin modifications that may cause steric hindrance of the compounds and influence their penetration into the enzyme’s active site. Overall, these aspirin modifications are safe to be considered as potential pharmaceutical agents.
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阿司匹林衍生物开发:与母体药物比较研究综述
近几十年来,随着生物对环境变化的反应不断进化,药物修饰在制药领域已不再罕见。非甾体抗炎药(NSAID),如阿司匹林,是一种常见的非处方药,不需要医生处方就可以购买。阿司匹林可通过阻断环氧化酶(COX)抑制前列腺素的合成,从而具有抗炎、解热、抗血小板等作用。它也被认为是一种化学预防剂,因为它的抗血栓作用通过COX的抑制。然而,长期使用阿司匹林可引起儿童和成人的胃灼热、溃疡和胃毒性。这篇综述文章重点介绍了阿司匹林的最新衍生物,要么减少副作用的风险,要么获得更好的物理化学性质。阿司匹林衍生物可以通过多种途径合成,并且与母体药物相比,已报道具有更好的生物活性,如抗癌、抗炎、抗菌、抗氧化等。在改性后的阿司匹林中,一氧化氮(NO)、NOSH、硫脲、偶氮、酰胺和查尔酮等重要成分的存在对达到预期的生物活性起着重要作用。在改性中添加卤素也成为研究人员的首选,因为它也影响了由于其阻碍细菌活性的能力而产生的作用。本综述还分享了某些阿司匹林修饰的体积效应,这些修饰可能导致化合物的空间位阻并影响它们渗透到酶的活性位点。总的来说,这些阿司匹林的修改是安全的,可以被认为是潜在的药物制剂。
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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