Research Roundup: New antibody platform, POC malaria test, Mpox test emergency 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. Recently published research found that a new, noninvasive test for malaria could provide a more reliable, safer, quicker, and more sensitive diagnostic option in low- and middle-income countries. The Cytophone, a tabletop printer-sized device, uses targeted lasers and ultrasound to detect malaria-infected cells in the bloodstream via a small, noninvasive probe placed on the back of a person’s hand. Malaria-infected red blood cells accumulate a by-product with unique properties that can be distinguished from normal red blood cells when they pass through a laser. The test, which provides results within minutes, was found to be as good or better at detecting symptomatic Plasmodium falciparum malaria infections than the current gold standard point-of-care methods for malaria testing, which require blood samples and special laboratory equipment. The next phase of testing the device will also investigate whether the device can detect and distinguish between other species.Last Tuesday, Bavarian Nordic announced the start of a clinical study of the MVA-BN® mpox/smallpox vaccine in children between 2 and 11 years old, who are highly vulnerable to infection during the ongoing mpox emergency. The study, which currently has sites in the Democratic Republic of Congo and plans to include sites in Uganda as well, is investigating the safety and immunogenicity of the vaccine in children compared to adults. Last month, the World Health Organization prequalified the vaccine for adolescents between 12 and 17 years old, following the European Medicines Agency’s approval for this age group. Results from the new trial could support an extension of the current approval.Researchers have identified a novel class of antimicrobial agents known as encrypted peptides that play a key role in the immune system’s response to bacterial infections, opening up new possibilities for combating drug-resistant infections as antimicrobial resistance continues to grow as a global health threat. The immune system is traditionally thought to rely primarily on proteins explicitly linked to immune functions, but this new research reveals that other structural proteins contribute to antimicrobial defenses. Leveraging the immune system’s natural defenses through these non-immune proteins could allow researchers to develop effective antibiotic therapies less prone to 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. Last week, scientists in Rwanda and partners from the World Health Organization launched the world’s first clinical trial testing a treatment for the deadly Marburg virus amid the ongoing outbreak in the country. There are currently no approved treatments or vaccines against Marburg virus, although a clinical trial of Sabin Vaccine Institute’s investigational vaccine is currently underway in Rwanda. The new trial will investigate the safety and efficacy of remdesivir and the monoclonal antibody MBP091, developed by Mapp Biopharmaceutical with support from the Biomedical Advanced Research and Development Authority.  At the recent G7 Joint Finance and Health Ministers’ Meeting, the Italian government announced a $21 million commitment over the next three years to the Combating Antibiotic-Resistant Bacteria Biopharmaceutical Accelerator (CARB-X) to accelerate the development of innovative products to prevent, diagnose, and treat drug-resistant bacterial infections. AMR is a growing public health crisis, particularly in low- and middle-income countries, and there is an urgent need for international collaboration and investment to revitalize an inadequate clinical pipeline and ensure new antimicrobials, antimicrobial alternatives, and diagnostics are available for patients worldwide.Valneva and LimmaTech announced last week that their Shigella4V (S4V) vaccine has been awarded Fast Track designation by the US Food and Drug Administration. There are no approved vaccines for the Shigella bacteria, which causes shigellosis, the second leading cause of fatal diarrheal disease globally, particularly among children in low- and middle-income countries. S4V is the world’s most clinically advanced tetravalent bioconjugate vaccine for shigellosis. This designation will enable accelerated clinical development and review of the vaccine, which will be investigated in two Phase 2 trials that are expected to begin before the end of 2024.