On Thursday, the World Health Organization (WHO) announced the first patient enrollment in a critical clinical trial evaluating investigational antiviral therapies to treat Ebola caused by the Bundibugyo virus, as the worrying outbreak in the Democratic Republic of the Congo continues to grow. There are currently no approved treatments specifically for the Bundibugyo strain. The trial is supported by a range of multilateral, regional, national, and scientific partners and is being coordinated by the Institut National de Recherche Biomédicale, the Institute of Tropical Medicine and the University of Oxford. Two therapies, the monoclonal antibody MBP134 and remdesivir, which were selected by WHO technical advisors, are being evaluated for their ability to improve survival among patients, with the goal of saving lives and helping curb the spread of the current outbreak, as well as generating evidence to improve care for future outbreaks.
A comprehensive review of COVID-19 mRNA vaccines published last week in The Lancet found that they are safe and effective, as skepticism around the safety and trustworthiness of the technology has persisted in recent years, while new research efforts have demonstrated the technology’s promise to address a range of priority disease and health challenges, including influenza and cancer. The researchers found that serious events are rare and the odds of them occurring were outweighed by significant protection against severe disease, hospitalization, and death. The researchers do acknowledge challenges with mRNA technology, including that they mRNA vaccines are not as effective at providing long-last immunity as they are at generating short-term responses and they have significant, expensive storage resource requirements, challenging access in low-resource areas. Sustained innovation and a commitment to improving access could help address these shortcomings and ensure the promise of mRNA technology is fully realized around the world.
Early results from a new study published in Nature last week found that an investigational HIV vaccine demonstrated unprecedented success in primates in a preclinical trial. The vaccine, which was developed through a prolonged collaboration between scientists at La Jolla Institute for Immunology and Scripps Research, works by prompting the immune system to produce high numbers of broadly neutralizing antibodies, which are capable of neutralizing a wide range of strains of the virus and are recognized as a promising approach in the HIV vaccine development field. One of the challenges of developing a vaccine for HIV has been the genetic diversity of the virus, with various distinct strains circulating. People living with HIV naturally develop broadly neutralizing antibodies that can neutralize various strains but designing a vaccine that can induce them has proven to be a challenge for researchers.