评估用于药物制剂的聚合物辅料的水生生物降解潜力。

Mila Bading, Oliver Olsson, Klaus Kümmerer
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引用次数: 0

摘要

聚合辅料(PEx)是药物制剂中不可或缺的成分,但由于其对淡水脊椎动物和无脊椎动物的生命史具有潜在的有害影响,因此在用药后排放废水时会引起环境问题。根据标准的 OECD 301 准则,对十种药用聚合化合物进行了逐步环境生物降解评估,以全面评估这些化合物的生物降解性。结果表明,聚乙烯醇(PVA)、聚乙二醇(PEG)、壳聚糖、玉米淀粉和淀粉乙醇酸钠(SSG)"易于生物降解",但 PVA 和 PEG 在不同的测试系统中表现出差异。在微生物密度和多样性较低的 OECD 301D 试验中,PEG 和 PVA 不会降解。相反,在微生物密度和多样性较高的 OECD 301F 试验中,PEG 的生物降解率为 73.0 ± 3.3%,而 PVA 在二级污水和活性污泥中的生物降解率分别为 91.2 ± 8.0%。聚乙烯吡咯烷酮(PVP)、Copovidone、Kollidon CL 以及 Eudragit 衍生物 EPO 和 L100-55 被归类为 "不可生物降解"(生物降解率小于 10%)。42 天后降解量没有增加。这表明它们在环境中具有持久性。这项研究为全面了解药用聚合物的生物降解潜力奠定了基础。它考虑了试验条件、接种物来源和化合物特性的影响。某些 PEx 在环境中的持久性强调了在药物制剂中使用更环保的生物降解替代品的迫切需要。
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Assessing the Aquatic Biodegradation Potential of Polymeric Excipients for Pharmaceutical Formulation.

Polymeric excipients (PEx) are essential in drug formulation but raise environmental concerns upon wastewater release post-administration due their potential detrimental effects to life-histories of freshwater vertebrates and invertebrates Ten pharmaceutical polymeric compounds were assessed in a stepwise environmental biodegradation assessment according to standard OECD 301 guidelines to thoroughly evaluate biodegradability of these compounds. Polyvinyl alcohol (PVA), polyethylene glycol (PEG), chitosan, maize starch, and sodium starch glycolate (SSG) were found to be 'readily biodegradable,' although PVA and PEG showed variation across employed test systems. PEG and PVA did not degrade in OECD 301D tests having low microbial density and diversity. In contrast, in the OECD 301F tests i.e., higher microbial density and diversity, PEG exhibited 73.0 ± 3.3% biodegradation, while PVA showed 91.2 ± 8.0% biodegradation with secondary effluent and activated sludge, respectively. Polyvinyl pyrrolidone (PVP), Copovidone, Kollidon CL, and Eudragit derivatives EPO and L100-55 were categorized as 'non-biodegradable' (< 10 % biodegradation). No increase in degradation was observed after 42 days. This indicates their environmental persistence. This study lays the groundwork for a comprehensive understanding of the biodegradation potential of pharmaceutical polymers. It considers the influence of test conditions, inoculum sources, and compound characteristics. The environmental persistence of certain PExs underlines the urgent need to use more environmentally biodegradable alternatives in drug formulation.

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