Research Roundup: Antibiotic discovery program, Malaria vaccine candidate, Spray-dry nasal RNA vaccine

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 new study explores the novel use of artificial intelligence (AI) to screen for antimicrobial compound candidates that could be developed into new tuberculosis (TB) drug treatments, as the rise of drug-resistant strains of TB underscores the urgent need for new drug candidates. While discovering new TB drug candidates through traditional laboratory methods is laborious and time-consuming, sensitive machine learning is better and faster at helping interpret complicated images of the Mycobacterium tuberculosis bacterium, accelerating TB research capabilities and helping identify optimal candidate compounds for drug development.A COVID-19 nasal vaccine will enter a Phase 1 clinical trial conducted by the National Institute of Allergy and Infectious Diseases in the United States this spring. While COVID-19 cases have fallen dramatically since the height of the pandemic, the virus continues to circulate and cause severe illness and death. The nasal vaccine is designed to induce strong immunity in the nose and upper respiratory tract where the virus enters the body, aiming to not only reduce serious illness and death but also to stop transmission in the first place, which cannot be achieved through COVID-19 vaccines that are injected into the body. If proven successful, the technology could also be adopted for other common respiratory viruses, including seasonal influenza, avian flu, and respiratory syncytial virus.Uganda recently launched a trial of IAVI’s experimental vaccine targeting the Sudan virus, which causes Ebola disease, following the identification of an outbreak in the country that has, so far, killed one person and infected two others. There are no currently approved vaccines for Sudan virus, although there is a vaccine for the Zaire strain of Ebola, highlighting the urgent need to generate data about vaccine candidates in the pipeline when outbreaks arise. Ugandan health authorities and research teams have rapidly jumped into action to prepare for the trial—2,160 doses of the trial vaccine and treatments arrived in Uganda’s capital, Kampala, over the weekend.

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. On World Neglected Tropical Diseases (NTDs) Day last week, the Global Health Innovative Technology (GHIT) Fund announced that it is investing $12.7 million across eight projects to further the development of new technologies to help address NTDs and a range of other diseases. Specifically, the funding aims to further the development of new diagnostics and drugs for leishmaniasis, dengue, malaria, Lassa fever, Rift Valley fever, Ebola, and Marburg, which is being led by various global product development partnerships and companies, including Medicines for Malaria Venture, PATH, and the Drugs for Neglected Diseases initiative.   Newly published research led by the global collaborative endTB project found three new safe and effective drug regimens to treat tuberculosis (TB) resistant to rifampin, the most effective first-line TB antibiotic currently available. These findings help expand the toolkit of treatments for patients with drug-resistant TB in the face of rising resistance globally, offering regimens that are shorter, less toxic, and do not require injections compared to currently available options. The new regimens use two drugs, bedaquiline and delamanid, which have been in use for just over a decade, in combination with older medications. The trial, launched in 2017, involved hundreds of patients across seven countries, including populations often excluded from clinical trials: children, people infected with HIV or hepatitis C, and women who became pregnant while on treatment, ensuring these groups are not excluded from new treatment recommendations.A recently published study found that a prophylactic antibody-based immune therapy protected monkeys against severe disease caused by H5N1 avian influenza, as the outbreak in the United States continues to cause concern. The broadly neutralizing antibody targets a relatively stable region of the virus and is therefore less prone to losing its efficacy than antibodies targeting viral structures that are prone to mutate, helping to ensure that the protection conferred by the therapy can withstand the possible emergence of virus variants. If proven successful in further studies, the therapy could be used to prevent severe disease in at-risk populations and protect first responders and other health care providers in the early stages of an outbreak, and more broadly, this research helps set the stage for the development of medical countermeasures in the case of future outbreaks of influenza.