Pegah Shakib, Abdolrazagh Marzban, Omid Mardanshah, Shirzad Fallahi, Israr Ali Khan, Mohammad Azarhazin, Kourosh Cheraghipour
Current pharmaceutical biotechnology 2023Drug resistance is a current issue affecting parasites caused by Plasmodium. Therefore, researchers have expanded their studies on nanoparticles to find new and effective drugs that can treat drug-resistant strains. The present study systematically investigates the effect of different nanoparticles, including metal, polymer, and lipid nanoparticles, on Plasmodium berghei. In this study, English-language online literature was obtained from the databases Science Direct, PubMed, Scopus, Ovid, and Cochrane to conduct a systematic review. In the search, we used the keywords: (Plasmodium Berghei) AND (Malaria) AND (Parasitemia) AND (antimalarial activity) AND (nanoparticles) AND (Solid lipid NPS) AND (Nano lipid carriers) AND (Artemether) AND (Chloroquine) AND (intraperitoneal) AND (in vivo). Initially, a total of 160 studies were retrieved from the search. After removing duplicates, 80 studies remained. After reviewing the title and abstract of each study, 45 unrelated studies were eliminated. The remaining 35 studies were thoroughly reviewed using the full texts. The final result was 21 studies that met the inclusion/exclusion criteria. Using these findings, we can conclude that various nanoparticles possess antiparasitic effects that may be applied to emerging and drug-resistant parasites. Together, these findings suggest that nanostructures may be used to design antiparasitic drugs that are effective against Plasmodium berghei. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.
Pegah Shakib, Abdolrazagh Marzban, Omid Mardanshah, Shirzad Fallahi, Israr Ali Khan, Mohammad Azarhazin, Kourosh Cheraghipour. New Strategies in the Treatment of Plasmodium berghei Based on Nanoparticles: A Systematic Review. Current pharmaceutical biotechnology. 2023;24(11):1376-1382
PMID: 36597608
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