基于纳米粒子治疗棘阿米巴致病的新策略:系统综述。

IF 1.3 Q4 PHARMACOLOGY & PHARMACY
Pegah Shakib, Hamed Kalani, Muhammad Tahir Aleem, Roghiyeh Faridnia, Mustafa Zebardast Pour, Kobra Moradpour, Kourosh Cheraghipour
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引用次数: 0

摘要

背景:阿卡阿米巴是全球流行的机会性寄生虫之一。目前,由于这种寄生虫的副作用和耐药性的出现,人们对使用纳米药物治疗由棘阿米巴引起的疾病进行了大量研究。因此,本系统综述研究旨在评估基于纳米颗粒(NPs)治疗由棘阿米巴引起的疾病的新策略:我们根据 2000 年至 2022 年间发表的英文文章设计了一篇系统综述。我们的检索策略基于语法和每个数据库的特定标签,包括 ScienceDirect、PubMed、Scopus、Ovid 和 Cochrane。从这些文章中筛选出符合纳入标准的文章,并提取和分析其数据:本研究共选取了 26 项研究。大部分研究使用金属纳米粒子来对抗棘阿米巴物种(80.7%)。19.2%的研究使用了聚合物纳米粒子,3.8%使用了乳液纳米粒子。大多数研究(96.1%)是在体外进行的,只有一项研究(3.8%)是在体内进行的。银纳米粒子是研究中使用最多的金属纳米粒子。抗黄衫虫化合物的最佳效果是基于植物胶稳定的绿色合成纳米粒子,其中含有柑橘类黄酮类物质橙皮甙(HDN)和柚皮甙(NRG),在浓度为 50 μg/mL 时,生长抑制率为 100%:本研究表明,氯己定和其他植物代谢物负载银纳米粒子和金纳米粒子后,可提高这些纳米粒子的抗镰刀菌活性。然而,基于植物胶稳定的绿色合成纳米粒子,负载柑橘类黄酮类物质橙皮甙(HDN)和柚皮甙(NRG),显示出最佳的抗黄鼠狼效果。尽管如此,仍需开展进一步研究,以确定其对人类使用的安全性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New strategies in the treatment of diseases caused by Acanthamoeba based on nanoparticles: a systematic review.

Background: Acanthamoeba is one of the opportunistic parasites with a global prevalence. Currently, due to the side effects and the emergence of drug resistance to this parasite, much research has been performed on the use of nano-drugs to treat Acanthamoeba-caused diseases. Therefore, this systematic review study aims to evaluate new strategies for treating diseases caused by Acanthamoeba based on nanoparticles (NPs).

Methods: We designed a systematic review based on the articles published in English between 2000 and 2022. Our search strategy was based on syntax and specific tags for each database, including ScienceDirect, PubMed, Scopus, Ovid, and Cochrane. From the articles, those that had inclusion criteria were selected, and their data were extracted and analyzed.

Results: In this study, 26 studies were selected. Metallic nanoparticles were mostly used against the Acanthamoeba species (80.7%). 19.2% of the studies used polymeric nanoparticles, and 3.8% used emulsion nanoparticles. Most studies (96.1%) were performed in vitro, and only one study (3.8%) was carried out in vivo. Silver NPs were the most used metallic nanoparticles in the studies. The best effect of the anti-Acanthamoeba compound was observed for green synthesized nanoparticles based on stabilization by plant gums, loaded with citrus fruits flavonoids hesperidin (HDN) and naringin (NRG) with a 100% growth inhibition at a concentration of 50 μg/mL.

Conclusion: This study showed that chlorhexidine and other plant metabolites loaded with silver and gold nanoparticles increase the anti-Acanthambae activity of these nanoparticles. However, green synthesized nanoparticles based on stabilization by plant gums, loaded with citrus fruits flavonoids hesperidin (HDN) and naringin (NRG), showed the best anti-Acanthambae effect. Nevertheless, further studies should be performed to determine their safety for human use.

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来源期刊
CiteScore
4.80
自引率
9.10%
发文量
55
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