4.7 Article

Efficient Treatment of Experimental Cerebral Malaria by an Artemisone-SMEDDS System: Impact of Application Route and Dosing Frequency

Journal

ANTIMICROBIAL AGENTS AND CHEMOTHERAPY
Volume 65, Issue 4, Pages -

Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/AAC.02106-20

Keywords

artemisone; malaria; SMEDDS; microemulsion; drug delivery; self-emulsifying; oral; nasal; intraperitoneal

Funding

  1. Deutsche Forschungsgemeinschaft (DFG) [GR 972/47-2, MA 1648/12-2]

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The study demonstrates that using SMEDDS can enhance the efficacy of ART in treating malaria, with better results achieved by splitting the dose and choosing the appropriate route of administration. Nasal treatment was found to be the most effective, followed by oral treatment, while intraperitoneal injection was the least effective route.
Artemisone (ART) has been successfully tested in vitro and in animal models against several diseases. However, its poor aqueous solubility and limited chemical stability are serious challenges. We developed a self-microemulsifying drug delivery system (SMEDDS) that overcomes these limitations. Here, we demonstrate the efficacy of this formulation against experimental cerebral malaria in mice and the impact of its administration using different routes (gavage, intranasal delivery, and parenteral injections) and frequency on the efficacy of the treatment. The minimal effective daily oral dose was 20 mg/kg. We found that splitting a dose of 20 mg/ kg ART given every 24 h, by administering two doses of 10 mg/kg each every 12 h, was highly effective and gave far superior results compared to 20 mg/kg once daily. We obtained the best results with nasal treatment; oral treatment was ranked second, and the least effective route of administration was intraperitoneal injection. A complete cure of experimental cerebral malaria could be achieved through choosing the optimal route of application, dose, and dosing interval. Altogether, the developed formulation combines easy manufacturing with high stability and could be a successful and very versatile carrier for the delivery of ART in the treatment of human severe malaria.

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