糖肽抗菌药在水溶液中的稳定性。

Sardar M Jakaria, David E Budil, James Murtagh
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引用次数: 3

摘要

糖肽抗菌剂是一类天然存在或半合成的糖基化产物,通过抑制细胞壁合成而显示出对革兰氏阳性生物的抗菌活性。在大多数情况下,由于在水溶液中的化学和物理不稳定,这些药物以干粉(冻干)形式制备;然而,从经济和实用的角度来看,液体制剂是优选的。研究人员最近发现了在冷冻或室温下在水溶液中配制一些糖肽类抗生素治疗药物的方法。通过在特定的缓冲液中配制特定的pH值,避免氧活性物质,并尽量减少溶剂暴露,可以显著减缓化学降解。糖、氨基酸、多元醇和表面活性剂可以通过限制糖肽的流动性和减少溶剂的相互作用来减少物理降解。本文综述了近年来糖肽类抗生素在水溶液中的稳定性研究进展。它分为三个部分:(i)由于化学和物理降解导致的糖肽抗生素不稳定性,(ii)改善糖肽抗生素在水溶液中的稳定性的策略,以及(iii)基于已发表的文献和专利对目前市场上可用的糖肽抗生素药物及其稳定性的调查。预计到2050年,抗菌素耐药性死亡人数将增加,这使得水溶液中的热稳定糖肽成为多重耐药和广泛耐药病原体的重要治疗选择。总之,通过更详细地了解这类治疗药物的降解机制,应该有可能在水溶液中配制热稳定的糖肽药物,使缺乏冷链的发展中国家更容易获得这些药物。
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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Glycopeptide antibiotic drug stability in aqueous solution.

Glycopeptide antimicrobials are a class of naturally occurring or semi-synthetic glycosylated products that have shown antibacterial activity against gram-positive organisms by inhibiting cell-wall synthesis. In most cases, these drugs are prepared in dry powder (lyophilized) form due to chemical and physical instability in aqueous solution; however, from an economic and practical point of view, liquid formulations are preferred. Researchers have recently found ways to formulate some glycopeptide antibiotic therapeutic drugs in aqueous solution at refrigerated or room temperature. Chemical degradation can be significantly slowed by formulating them at a defined pH with specific buffers, avoiding oxygen reactive species, and minimizing solvent exposure. Sugars, amino acids, polyols, and surfactants can reduce physical degradation by restricting glycopeptide mobility and reducing solvent interaction. This review focuses on recent studies on glycopeptide antibiotic drug stability in aqueous solution. It is organized into three sections: (i) glycopeptide antibiotic instability due to chemical and physical degradation, (ii) strategies to improve glycopeptide antibiotic stability in aqueous solution, and (iii) a survey of glycopeptide antibiotic drugs currently available in the market and their stability based on published literature and patents. Antimicrobial resistance deaths are expected to increase by 2050, making heat-stable glycopeptides in aqueous solution an important treatment option for multidrug-resistant and extensively drug-resistant pathogens. In conclusion, it should be possible to formulate heat stable glycopeptide drugs in aqueous solution by understanding the degradation mechanisms of this class of therapeutic drugs in greater detail, making them easily accessible to developing countries with a lack of cold chains.

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