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Scientists at the Icahn School of Medicine at Mount Sinai and research partners have developed an innovative antibody platform to tackle viruses like SARS-CoV-2 (the virus that causes COVID-19) that can rapidly evolve and render vaccines and treatments ineffective. The platform uses engineered nanobodies to simultaneously target multiple stable regions of the virus that are less likely to mutate, making it harder for resistance to develop. While most therapeutic antibodies target only a single viral site and can lose effectiveness within a year as viruses evolve, this platform has the potential to offer a more durable, resilient defense against these tricky viruses. It could also be potentially adapted to target other pathogens. In lab tests and experiments in mice, the platform was able to effectively target a range of variants of the SARS-CoV-2 virus and even the closely related SARS-CoV virus.
A new research project led by researchers at the Barcelona Institute for Global Health and Columbia University aims to develop a lateral flow test for diagnosing malaria at the point of care that would also enable health care workers to determine the severity of the disease and decide whether a course of treatment is necessary. While some patients with uncomplicated malaria can be treated at home, malaria can also rapidly progress and require more complicated treatment in a health care setting. Lateral flow tests for malaria diagnosis exist, but parasite counting using microscopy is needed to determine severity and that cannot be done at the point of care. The researchers, who hope to have a validated prototype by the fall of 2026, are looking to develop a portable, paper-based assay that uses a smartphone and can deliver results within minutes.
Last Monday, Roche announced that its mpox assay, Cobas MPXV, has been listed under the World Health Organization’s (WHO’s) Emergency Use Listing procedure, a designation that aims to accelerate the availability of and access to the test during the current global mpox emergency. The automated real-time PCR-based test detects DNA from the virus that causes mpox using a dual-target approach and previously received Emergency Use Authorization from the US Food and Drug Administration in 2022. Earlier this month, Abbot’s mpox test was also listed on the Emergency Use Listing procedure following a call by WHO for manufacturers to submit expressions of interest back in August.