Research Roundup: Preconception malaria vaccine trial, Mpox antiviral trial results, Respiratory virus combo test approval

Interested in more global health innovation news? Every week GHTC scours media reports worldwide to deliver essential global health R&D news and content to your inbox. Sign up now to receive our weekly R&D News Roundup email. The US Food and Drug Administration (FDA) on Thursday approved updated COVID-19 vaccines from Pfizer and Moderna that target the KP.2 virus strain, which emerged from the highly contagious JN.1 variant that began circulating widely in the United States last winter. The new shots are expected to be available within days amid spiking case rates and hospitalizations for COVID-19. Experts also hope the vaccines will provide cross-protection against closely related subtypes of the virus, including KP.3.1.1 and KP.3, which are now spreading rapidly and account for 36 and 17 percent of all new cases, respectively. The FDA has not yet approved a third vaccine from drugmaker Novavax.The World Health Organization (WHO) this week recommended three new oral regimens for multidrug-resistant or rifampicin-resistant tuberculosis (TB) that can cure patients more quickly and successfully than the current painful injectable regimens. These regimens—which include the use of new and repurposed medicines like bedaquiline, pretomanid, linezolid, and delamanid—can be offered to nearly all patients and can improve treatment success by shortening treatment time to six to nine months, rather than the usual 18 months, while reducing treatment toxicity and the spread of drug-resistant forms of TB. WHO’s recommendations are based on results from the BEAT-TB clinical trial conducted in South Africa and the endTB trial conducted in seven countries between 2017 and 2023 by Médecins Sans Frontières, Partners In Health, and Interactive Research and Development and funded by Unitaid.  A new study found that giving azithromycin to all children up to five years old can greatly reduce childhood mortality in sub-Saharan Africa, more so than by limiting the distribution of the antibiotic to younger children, as recommended by WHO. The study, published Wednesday in the New England Journal of Medicine, found that twice-yearly distribution of azithromycin to children ages 1 to 59 months in rural communities in Niger reduced childhood mortality by 14 percent when compared with children who received a placebo. Further, the study found that targeting only children ages 1 to 11 months (recommended by WHO in 2020) did not lead to a significant reduction in childhood mortality. However, concerns remain about the effect of routinely distributing the antibiotic to all children under five on antimicrobial resistance. 

Interested in more global health innovation news? Every week GHTC scours media reports worldwide to deliver essential global health R&D news and content to your inbox. Sign up now to receive our weekly R&D News Roundup email. The Africa Centres for Disease Control and Prevention (Africa CDC) is expected to declare its first-ever “public health emergency of continental security” as the mpox outbreak in sub-Saharan Africa continues to grow—with 14,000 cases and 511 deaths reported so far—and spread to countries that had never previously identified cases. The decision, a direct response to the global inequity faced by Africa during the COVID-19 pandemic, aims to mobilize international support and vaccine donations. Africa CDC has said that the need for vaccines greatly exceeds what is available and what many African countries can afford, with a costly price tag for the currently available vaccine. The United States has pledged almost $424 million to the Democratic Republic of Congo, where the outbreak started, as well as $10 million for the mpox response and 5,000 mpox vaccine doses. Japan, the European Union, and vaccine manufacturers are also preparing vaccine donations. World Health Organization (WHO) Director-General Dr. Tedros Adhanom Ghebreyesus announced last week that he will convene an emergency panel of experts to advise him on whether to declare the outbreak a global health emergency, which would garner even more attention and international support.Phylex Biosciences recently published the preliminary findings from an immunogenicity study conducted in collaboration with scientists from the US Centers for Disease Control and Prevention that showed promising results for a new mRNA nanoparticle vaccine against Nipah virus, a serious zoonotic disease that has an estimated case fatality rate between 40 and 75 percent. There is no preventive vaccine available for Nipah. The study found that the vaccine elicited a robust neutralizing response and confirmed the advantages of using mRNA and a nanoparticle, which allow, respectively, for quicker manufacturing and development timelines and efficacy after one dose. The company will next pursue clinical development for the vaccine candidate.Last week, WHO called for greater coordination on policies to strengthen the antibacterial pipeline as the global challenge of drug resistance, which disproportionately impacts low- and middle-income countries (LMICs), continues to rise. WHO highlighted the insufficient number of antibiotic candidates and limited innovative products in the fragile R&D antibacterial pipeline, as well as the lack of products in clinical development that address the evolving mechanisms of drug resistance, use oral formulations, and are formulated for infants and newborns, pointing to persistent R&D challenges like the dominance of small, resource-limited biotechnology companies in the sector. At the highest level, WHO called for greater global coordination and cooperation to improve data collection and sharing and ensure that efforts to boost R&D address the needs of underserved populations and LMICs. Specifically, WHO called on governments to provide adequate resources and incentives to boost the antibiotic R&D pipeline by addressing the needs of the small companies that dominate the sector and strengthening the capacity of the scientific communities and drug developers in LMICs.