Abstract

BackgroundThe control of schistosomiasis has been centered to date on a single drug, praziquantel, with shortcomings including treatment failure, reinfection, and emergence of drug resistance. Drug repurposing, combination therapy or nanotechnology were explored to improve antischistosomal treatment. The aim of the present study was to utilize a novel combination of the three strategies to improve the therapeutic profile of praziquantel. This was based on a fixed-dose nanocombination of praziquantel and miltefosine, an antischistosomal repurposing candidate, co-loaded at reduced doses into lipid nanocapsules, for single dose oral therapy.MethodsTwo nanocombinations were prepared to provide 250 mg praziquantel-20 mg miltefosine/kg (higher fixed-dose) or 125 mg praziquantel-10 mg miltefosine/kg (lower fixed-dose), respectively. Their antischistosomal efficacy in comparison with a non-treated control and their praziquantel or miltefosine singly loaded counterparts was assessed in murine schistosomiasis mansoni. A single oral dose of either formulation was administered on the initial day of infection, and on days 21 and 42 post-infection. Scanning electron microscopic, parasitological, and histopathological studies were used for assessment. Preclinical data were subjected to analysis of variance and Tukeyʼs post-hoc test for pairwise comparisons.ResultsLipid nanocapsules (~ 58 nm) showed high entrapment efficiency of both drugs (> 97%). Compared to singly loaded praziquantel-lipid nanocapsules, the higher nanocombination dose showed a significant increase in antischistosomal efficacy in terms of statistically significant decrease in mean worm burden, particularly against invasive and juvenile worms, and amelioration of hepatic granulomas (P ≤ 0.05). In addition, scanning electron microscopy examination showed extensive dorsal tegumental damage with noticeable deposition of nanostructures.ConclusionsThe therapeutic profile of praziquantel could be improved by a novel multiple approach integrating drug repurposing, combination therapy and nanotechnology. Multistage activity and amelioration of liver pathology could be achieved by a new praziquantel-miltefosine fixed-dose nanocombination providing 250 mg praziquantel-20 mg miltefosine/kg. To the best of our knowledge, this is the first report of a fixed-dose nano-based combinatorial therapy for schistosomiasis mansoni. Further studies are needed to document the nanocombination safety and explore its prophylactic activity and potential to hinder the onset of resistance to the drug components.

Highlights

  • The control of schistosomiasis has been centered to date on a single drug, praziquantel, with short‐ comings including treatment failure, reinfection, and emergence of drug resistance

  • Further studies are needed to document the nanocombination safety and explore its prophylactic activity and potential to hinder the onset of resistance to the drug components

  • The fixed-dose of 250 mg PZQ-20 mg MFS/kg nanocombination developed in the present study using lipid nanocapsules (LNCs) offers advantages as a potential oral nanomedicine for single dose antischistosomal therapy with multistage activity and ability to ameliorate schistosomiasis-associated hepatic pathology

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Summary

Introduction

The control of schistosomiasis has been centered to date on a single drug, praziquantel, with short‐ comings including treatment failure, reinfection, and emergence of drug resistance. The aim of the present study was to utilize a novel combination of the three strategies to improve the therapeutic profile of praziquantel This was based on a fixed-dose nanocombination of praziquantel and miltefosine, an antischistosomal repurposing candidate, co-loaded at reduced doses into lipid nanocapsules, for single dose oral therapy. According to the World Health Organization, PZQ is administered at the standard single oral dose of 40 mg/kg body weight in mass drug administration (MDA) programmes in endemic countries. Such campaigns resulted in reduction of worm burden, incomplete cure attributed to ineffectiveness of PZQ against immature juvenile worms and reinfection have been reported [5, 6]. Drug resistance due to the widespread use of PZQ presents a serious threat to the gains achieved [7]

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