加速聚乳酸-共聚乙二醇微粒的最终残留溶剂萃取。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2024-09-01 Epub Date: 2024-08-15 DOI:10.1007/s11095-024-03744-9
Florian Kias, Roland Bodmeier
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引用次数: 0

摘要

目的:通过水溶液或酒精湿法萃取或真空干燥法研究了去除可生物降解的聚(D,L-乳酸-共聚乙醇酸)(PLGA)微粒中残留溶剂二氯甲烷的方法:方法:采用 O/W 溶剂萃取/蒸发法制备微颗粒。方法:采用 O/W 溶剂萃取/蒸发法制备微粒,通过过滤分离凝固的微粒,并研究后续干燥和湿提取方法的影响。残留溶剂含量通过气相色谱法(有机溶剂)和卡尔费休滴定法(水)进行分析。研究了萃取条件对地塞米松和利培酮这两种药物的微粒聚集、表面形态和封装的影响:结果:通过水湿萃取,残留的二氯甲烷降低到 2.43%(重量比)(20 °C)或 0.03%(重量比)(35 °C)。真空干燥时,由于缺乏水的塑化作用,残留二氯甲烷仅从约 5%(重量比)降至 4.34%(重量比)(20 °C)或 3.20%(重量比)(35 °C)。在酒精介质中重新分散过滤后的湿微粒,由于 PLGA 的塑化作用增强,萃取效果明显改善。戈登-泰勒方程和汉森溶解度参数解释了不同萃取剂的潜力。在甲醇:或乙醇:水混合物中萃取可在 1 小时内将残留二氯甲烷从 4 - 7%(重量比)降至 0.5 - 2.3%(重量比),在 6 小时内降至 0.08 - 0.18%(重量比):结论:采用酒精湿法萃取,然后在高温下进行水湿法萃取和真空干燥微颗粒,能更有效地去除残留的二氯甲烷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Acceleration of Final Residual Solvent Extraction From Poly(lactide-co-glycolide) Microparticles.

Acceleration of Final Residual Solvent Extraction From Poly(lactide-co-glycolide) Microparticles.

Purpose: The removal of the residual solvent dichloromethane from biodegradable poly(D,L-lactic-co-glycolic acid) (PLGA) microparticles was investigated by aqueous or alcoholic wet extraction or vacuum-drying.

Methods: Microparticles were prepared by the O/W solvent extraction/evaporation method. The solidified microparticles were separated by filtration and the effect of subsequent drying and wet extraction methods were investigated. The residual solvent content was analysed with gas chromatography (organic solvents) and Karl Fischer titration (water). The effect of extraction conditions on microparticle aggregation, surface morphology and encapsulation of the drugs dexamethasone and risperidone was investigated.

Results: Residual dichloromethane was reduced to 2.43% (w/w) (20 °C) or 0.03% (w/w) (35 °C) by aqueous wet extraction. With vacuum-drying, residual dichloromethane only decreased from about 5% (w/w) to 4.34% (w/w) (20 °C) or 3.20% (w/w) (35 °C) due to the lack of the plasticizing effect of water. Redispersion of filtered, wet microparticles in alcoholic media significantly improved the extraction due to an increased PLGA plasticization. The potential of different extractants was explained with the Gordon-Taylor equation and Hansen solubility parameters. Extraction in methanol: or ethanol:water mixtures reduced residual dichloromethane from 4 - 7% (w/w) to 0.5 - 2.3% (w/w) within 1 h and 0.08 - 0.18% (w/w) within 6 h. Higher alcohol contents and higher temperature resulted in aggregation of microparticles and lower drug loadings.

Conclusion: The final removal of residual dichloromethane was more efficient with alcoholic wet extraction followed by aqueous wet extraction at elevated temperature and vacuum drying of the microparticles.

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CiteScore
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