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New Strategies in the Treatment of Plasmodium Berghei Based on Nanoparticles: A Systematic Review Publisher Pubmed



Shakib P1 ; Marzban A1 ; Mardanshah O2 ; Fallahi S3 ; Khan IA4 ; Azarhazin M1 ; Cheraghipour K1, 5
Authors

Source: Current Pharmaceutical Biotechnology Published:2023


Abstract

Background: Drug resistance is a current issue affecting parasites caused by Plasmo-dium. 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. Methods: 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 activ-ity) 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 re-trieved from the search. After removing duplicates, 80 studies remained. After reviewing the title and abstract of each study, 45 unrelated studies were eliminated. Results: The remaining 35 studies were thoroughly reviewed using the full texts. The final result was 21 studies that met the inclusion/exclusion criteria. Conclusion: 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 Plasmo-dium berghei. © 2023 Bentham Science Publishers.
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