Device for noninvasive brain biopsies via blood draw moves closer to market approval
A device aimed at enabling neurosurgeons and other physicians to perform noninvasive blood-based biopsies in adults with brain tumors has received Food and Drug Administration (FDA) “Breakthrough Device” designation. The device includes technology from Washington University in St. Louis and developed by Cordance Medical Inc., a medical device company in Mountain View, Calif.
Noninvasive, ultrasound-based brain biopsy is feasible, safe in people
Sonobiopsies generate genetic, molecular data to inform treatment decisions for brain diseases
WashU leads new multi-omics production center for NIH research consortium
The National Institutes of Health (NIH) is channeling $50.3 million over the next five years into a new consortium dedicated to advancing the generation and analysis of multi-omics data for human health research. As part of this team, Washington University in St. Louis is establishing and will lead a central production center that functions as a hub for multi-omics analyses for materials from consortium members at each of six disease study sites identified by the NIH.
Air monitor can detect COVID-19 virus variants in about 5 minutes
Proof-of-concept device could also monitor for flu, RSV, other respiratory viruses
EMBA alum’s startup wins $250K in Texas competition
A WashU-based life sciences startup that patented a groundbreaking bloodstream marker that flags potential cardiovascular disease recently won a $250,000 investment prize in a major national pitch competition.
Wearable, light-based brain-imaging tech to be commercialized with aid of NIH grant
Wearable brain-imaging tech aims to reveal how the brain works in natural, realistic situations. Washington University faculty members Joseph P. Culver, Jason Trobaugh and Ed Richter, along with Adam Eggebrecht, have received a grant from the NIH to develop and commercialize a brain-imaging cap that uses LED light to gauge brain activity.
Imaging tech produces real-time 3D maps of uterine contractions during labor
Researchers at Washington University School of Medicine in St. Louis have developed new imaging technology that can produce 3D maps showing the magnitude and distribution of uterine contractions in real time and across the entire surface of the uterus during labor.
O’Brien team wins NIH prize to further develop maternal health device
Christine O’Brien, an assistant professor of biomedical engineering at the McKelvey School of Engineering at Washington University in St. Louis, and her team have received a $20,000 prize from the National Institutes of Health (NIH)’s Rapid Acceleration of Diagnostics Technology for Maternal Health Challenge.