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.
A recently published study found that a malaria vaccine candidate given to women who planned on becoming pregnant was safe and effective for both the women and their babies. This exciting research could lead to a vaccine to protect pregnant individuals— who are often excluded from clinical trials—and their babies from malaria in the face of an estimated 50,000 maternal deaths and 200,000 stillbirths every year caused by malaria infections in pregnancy. The investigational attenuated vaccine, PfSPZ, will next be tested for use during pregnancy and in a larger study on preconception use.
Just as the World Health Organization and the Africa Centres for Disease Control and Prevention declared the current mpox outbreak a public health emergency last week, SIGA Technologies and the National Institute of Allergy and Infectious Diseases at the US National Institutes of Health reported mixed results from a preliminary analysis of a study testing the smallpox antiviral treatment Tpoxx against mpox. While the study, which took place in the Democratic Republic of Congo and began during the 2022 global outbreak, did not meet the trial’s primary endpoint of reducing the time to lesion resolution within a 28-day treatment period, the company says these results are not entirely unexpected and is highly encouraged that Tpoxx did elicit a “meaningful improvement” in some participants with severe cases, supporting a potential use case as post-exposure treatment for patients with severe mpox. The company also pointed to four other ongoing studies that significantly differ from the Congo trial and will provide additional data on the treatment.
The NxTAG Respiratory Pathogen Panel, which detects and differentiates between common respiratory viruses, recently received 510(k) clearance from the US Food and Drug Administration. The combination test, which was developed with support from the Biomedical Advanced Research and Development Authority (BARDA) can, from a single swab, detect and differentiate 19 common respiratory viruses, including the virus that causes COVID-19, influenza A and B, and RSV, allowing health care workers to test patients and provide appropriate treatment rapidly. BARDA’s support is part of a broader effort to advance diagnostic testing platforms that can be rapidly adapted to emerging threats.