Nanotechnology in Malaria Treatment: Targeted Drug Delivery Systems and Future Applications

Nassimbwa Kabanda D.

Faculty of Medicine Kampala International University Uganda

ABSTRACT

Malaria continued to be a major global health challenge, particularly in regions with high disease burden, despite advancements in treatment options such as Artemisinin-based Combination Therapies (ACTs). The emergence of nanotechnology offered a transformative approach to malaria treatment, with its potential to improve drug delivery, bioavailability, and therapeutic outcomes. This review examined the current applications and advancements in nanotechnology for malaria treatment, focusing on the use of nanocarriers like liposomes, polymeric nanoparticles, and solid lipid nanoparticles. These systems enhanced the efficacy of antimalarial drugs by enabling targeted delivery to malaria-infected cells, overcoming drug resistance, and offering controlled release mechanisms. The review also explored emerging strategies such as combination therapies, personalized nanomedicine, responsive nanoparticles, and vaccine delivery systems. While nanotechnology holds great promise, challenges including safety, scalability, regulatory hurdles, and cost were addressed. Future directions suggest innovations such as smart nanocarriers, personalized treatments, and enhanced diagnostic integration. Methodologically, this review synthesized data from recent preclinical and clinical research to provide a comprehensive analysis of nanotechnology’s role in advancing malaria treatment. Global collaboration and interdisciplinary research will be pivotal in realizing the full potential of nanotechnology in combating malaria.

Keywords: Nanotechnology, malaria treatment, drug delivery systems, liposomes, nanoparticles, targeted therapy, drug resistance

CITE AS: Nassimbwa Kabanda D. (2024). Nanotechnology in Malaria Treatment: Targeted Drug Delivery Systems and Future Applications. INOSR Experimental Sciences 13(2):56-61. https://doi.org/10.59298/INOSRES/2024/1325661.000