KARACHI, Pakistan – With limited resources, a growing outbreak and a tech savvy population, Pakistan is reaching into a diverse bag of tricks to find ways to battle COVID-19. Part of these efforts include at least one artificial intelligence (AI)-based diagnostic product as well as molecular diagnostic assays.
Hologic Inc., of Marlborough, Mass., is introducing another tool to help combat COVID-19, revealing the impending launch of a new Aptima molecular assay to detect the SARS-CoV-2 virus that will run on its Panther system. The company expects to be able to provide its lab customers with about 3 million Aptima tests next week. In addition, it anticipates producing about 1 million tests a week starting late next month.
TORONTO – Within a week of completing clinical trials the chest radiography AI tool developed by Vancouver, B.C.-based 1Qbit Inc. has been given the all-clear from Health Canada for deployment across the country. The XrAI was originally developed to better identify patients with respiratory illness including SARS, pneumonia and tuberculosis (TB), but then in February was tested on a publicly available data set of COVID-19 X-ray images.
Regulatory snapshots, including global submissions and approvals, clinical trial approvals and other regulatory decisions and designations: Binx Health, Cerus Endovascular, Nines, Refine USA, Rheonix, Synaptive Medical.
Clinical updates, including trial initiations, enrollment status and data readouts and publications: Helius Medical Technologies, Sigrid Therapeutics, Xenex.
A multi-institutional group led by the University of California at San Francisco’s Quantitative Biosciences Institute (QBI) has identified more than 200 host proteins that interacted with SARS-CoV-2 viral proteins during infection, creating “a blueprint of how SARS-CoV-2 hijacks human cells,” QBI Director Nevan Krogan told reporters. They then used that blueprint to identify 10 drugs, some FDA approved and some in clinical trials, that were able to inhibit viral growth in cell culture assays, marking them for further study as potential antivirals. The work also identified one compound, dextromethorphan, that appeared to facilitate viral growth.