biomedical engineering. Biomedical engineers contribute to medical technologies in a variety of areas including diagnostics, therapeutics, imaging, bioinformatics and rehabilitation.

Our master's or doctorate in biomedical engineering program develops new devices at the ... microdevices, biomechanics, and medical imaging and optics. Faculty and students have developed businesses ...

Biophotonics research focuses on the development of optical imaging and sensing technologies to study biomolecule, cell, and tissue structure and function at nanoscopic and microscopic scales. The ...

Bioengineers at Caltech have developed a new imaging technology that could offer surgeons a fast and cost-effective way to ...

Computed tomography (CT) has long been a cornerstone of modern imaging, providing detailed 3D insights into the human body ...

The innovations taking place in medical and health-care technology — known as ‘med-tech’ and ‘health-tech’ — involve ...

Technology developed at The University of Akron is part of a medical device that was included in TIME Magazine’s The Best ...

"This is truly a transformative tool," said project leader Gordana Vunjak-Novakovic, University Professor and the Mikati Foundation Professor of Biomedical Engineering, Medical Sciences ...

medical devices, and image processing. Our instructors’ interdisciplinary approach ensures that you will receive a well-rounded education that encompasses the diverse aspects of biomedical engineering ...

biomedical devices, sensors, instrumentation and diagnostics, computational engineering and modeling, medical imaging and analysis, or in a student's chosen area of interest. Faculty in the Biomedical ...

the UMass Lowell Biomedical Engineering Program prepares students for careers in the biomedical industries, especially those involving medical device development, cell & tissue engineering, or ...