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. 2024 Sep 15;16(9):4279–4300. doi: 10.62347/BXRT7210

Table 2.

Current schistosomiasis vaccine candidates in clinical trials

Vaccine Candidate Function Targeted species Experimental models Vaccine efficacy Resulting immune response Clinical trial Status of the vaccine References
Sm-TSP-2/Alhydrogel® Tegument stability and parasite development S. mansoni Mice Reduction of 25%-58% worm burden and 27%-56% reduction in tissue eggs Vaccinated individuals generated sufficient IgG antibodies Phases 1a & 1b completed Phase 1 trials to determine the toxicity and immunogenicity of the vaccine in healthy adults. [91,119]
Sm14/GLA-SE Absorption and transportation of fatty acids from the host S. mansoni Mice and rabbits A 65.9% and 93.2% decrease in worm burden in rabbits and mice respectively Triggered the Th1 and Th2 cytokines and produced a substantial amount of Sm14-specific IgG, with no IgE detected Phases 1 and 2a completed The vaccine produced durable immunogenicity, which led to the planning of Phase 2b and Phase 3 trials. [94,96]
Sh28GST/Alhydrogel (Bilharvax®) Fatty acid metabolism and prostaglandin D2 production; might aid in parasite immune evasion in immunized people S. haematobium Rodents, primates, and cattle A 40-60% reduction of the worm burden and a significant decrease in female worms Highly immunogenic in adults, however, immunized children lacked IgG3 and IgA antibodies, which are linked to acquired immunity Phases 1, 2 & 3 completed Failed to achieve protection against urinary schistosomiasis. [111,120]
Sm-p80/GLA-SE Surface membrane biogenesis and renewal to escape the host immune response S. mansoni Mice and baboons A 93.45% reduction in adult female worms and an 89.95% decrease in tissue egg load Produced Sm-p80-specific total IgG and IgG subtypes with an increase in Th1 cytokines IFN-γ, IL-2, and TNF-α Phase 1 initiated Clinical trials are still ongoing. [114,117,118]