The Drugs for Neglected Diseases initiative (DNDi) and the Serum Institute of India have announced a new licensing agreement covering clinical testing and future access for a promising treatment for dengue, a fast-growing global disease threat. There is no specific treatment for dengue and control efforts currently rely on targeting the mosquito populations that carry the virus and deploying new vaccines, which have varying effectiveness in certain populations and haven’t achieved widespread coverage. The Serum Institute developed and optimized the monoclonal antibody treatment, finding promising safety and efficacy results in preclinical and Phase 1 and 2 trials, and is currently carrying out a Phase 3 clinical trial in India. Under the agreement, DNDi will lead a Phase 3 clinical trial set to begin early next year in dengue-endemic countries, including Malaysia, Thailand, and Brazil, and, if the treatment is successfully approved, DNDi will support affordable access in low- and middle-income countries.
A new study published in The Lancet Infectious Diseases demonstrated promising results for an investigational vaccine candidate for Shigella sonnei, an important step toward developing a vaccine for the disease-causing bacteria. Shigella sonnei is one of the four species of Shigella, a highly contagious bacteria that infects tens of millions of people around the world, causing diarrheal disease. There are no licensed vaccines for any of the Shigella species, two of which, including S. sonnei, are becoming increasingly resistant to first-line antibiotics. The investigational vaccine provided high-level protection, an estimated vaccine efficacy of 89 percent, in a Phase 2 trial conducted among healthy adult participants at two US sites. The next step for researchers is to optimize the dose level and evaluate the vaccine in larger trials in high-burden settings that include children, who are among the most affected by shigellosis.
Last week, the South Africa Medical Research Council and the Unit of Viral Evolution and Transmission at IRCCS Ospedale San Raffaele initiated a Phase 1 clinical trial to assess the safety and pharmacokinetic profile of a promising broadly neutralizing antibody (bnAbs) for eventual use to prevent HIV acquisition by infants and young children. bnAbs, a type of naturally occurring antibody that can neutralize multiple strains of HIV, are considered a promising approach in HIV research and could potentially be utilized in a long-acting option to protect infants from HIV transmission during breastfeeding, helping close critical gaps in HIV care options and access. IAVI and partners developed the bnAb from blood samples taken from adult participants living with HIV around the world; it was selected for further development following evidence of strong potency in preclinical trials. The trial will initially enroll 26 healthy adult volunteers to collect data on dose section, administration strategies, and safety to inform the planned infant trial.