Cheemeng Tan and Sean Collins, associate professors at UC Davis, are part of a national effort to develop a novel device for inflammatory bowel disease. The technology will function like a pharmacy inside the body, producing and releasing engineered cells as a real-time response to flare-ups.
Fifth-year biomedical engineering doctoral candidate Ben Mattison has found the Translating Engineering Advances to Medicine Lab an invaluable resource for realizing his research that eyes new territory in microscopy.
The Translating Engineering Advances to Medicine Lab has contributed to a collaborative project to improve surgical procedures using augmented reality goggles.
New Assistant Professor of Biomedical Engineering Alba Alfonso García is fascinated by the power of photonics to clarify complex biological issues. As a UC Davis researcher, she innovates biophotonic imaging technologies and translates these advancements into tools for medical professionals.
Assistant Professor of Biomedical Engineering Yi Xue is the lead author of a paper that describes a new microscope system that enables rapid, clear and detailed tracking of living brain tissue.
The Translating Engineering Advances to Medicine (TEAM) Lab at UC Davis is a unit within the Department of Biomedical Engineering at the UC Davis College of Engineering. The lab designs and manufactures devices to support research and solve problems in human and veterinary health.
As part of UC Davis Global Affairs, Services for International Students and Scholars (SISS) is helping to build a campus community that includes students and scholars from over 100 countries and six continents. Each year, SISS serves more than 10,000 international students, faculty and researchers and their accompanying family members who come to UC Davis.
Biomedical engineering doctoral student Greg Wheeler explores how an emerging MRI technique can identify conditions like dementia earlier than ever before.
Dovin Kiernan, a recent graduate from the Biomedical Engineering Graduate Group at the University of California, Davis, explores biomechanics and wearable technology to reduce the high rates of overuse injuries in running.
UC Davis researchers have developed a new catheter-based device that combines two powerful optical techniques to image the dangerous plaques that can build up inside the arteries that supply blood to the heart.
