An international research team, led by scientists at the University of Maryland School of Medicine, shared the results of the Phase 1 trial of a novel vaccine designed to protect against typhoid fever and non-typhoidal Salmonella infections, reporting that the vaccine produced a strong immune response and was safe and well-tolerated in a small group of healthy US adults. These encouraging findings pave the way for the next step of evaluating the vaccine in children. A single vaccine that targets Typhoid fever and non-typhoid Salmonella, both leading causes of illness and death in children in Africa, could be a game-changer for pediatric health. The vaccine could also help protect people in the United States and other high-income countries, where some types of Salmonella are common causes of foodborne illness.
Following the example of the US military, who often wear uniforms treated with insecticide to repel mosquitoes in malaria-endemic regions, a research team has tested a similar approach to try to protect young children, who face a significant burden of malaria in sub-Saharan Africa. While existing vector control tools, such as insecticide-treated bednets, only protect children while they’re sleeping, a large randomized controlled trial in Uganda tested the efficacy of insecticide-treated baby wraps, used in conjunction with bednets. The trial found that the baby wraps were highly effective at preventing malaria infections. The dramatic scale of the reduction of new infections also suggests that malaria-carrying mosquitoes were biting during the daytime more often than previously thought, which could help guide the development of new vector control tools and approaches.
Last week, The Safety of Antimalarials in the FIRst trimEster (SAFIRE) consortium announced that it had enrolled its first patient in Mali, marking the official start of the first-ever Phase 3 adaptive platform trial evaluating the efficacy and safety of antimalarial drugs in the first trimester of pregnancy. The trial is a landmark achievement that could not only help fill the crucial gap of safe and effective options for pregnant women at risk of malaria, but it is also a step toward equity and inclusion for clinical research and drug development in general, which have long excluded pregnant women, fueling the gap in the first place. SAFIRE partners have shared that early formative research in the communities where the trial will take place was a crucial step in ensuring that the design and process were appropriate and acceptable to the communities. The study will continue to progress in Mali, Burkina Faso, and Kenya.