A new technique has enabled ultra-powerful magnetic resonance imaging (MRI) scanners to identify tiny differences in patients ...

Biomedical Imaging and Cancer Engineering research revolves around the relentless pursuit of innovating and appraising novel imaging modalities and methodologies. This vast domain encompasses device ...

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 ...

Students in the biomedical engineering doctoral program study equal portions of engineering ... Students follow one of seven tracks: bioelectronics and imaging; bioelectronics and sensing; ...

Indeed, major inventions of biomedical engineering — such as artificial joints, magnetic resonance imaging, heart pacemakers, heart–lung machines and angioplasties — are built on findings ...

Biocompatibility testing, engineering artificial organs and tissues, developing new drug delivery systems, creating or modifying innovative medical devices, enhancing medical imaging techniques, or ...

The Biomedical Engineering Doctor of Philosophy (PhD) degree provides the scientific foundation to prepare students for careers in the biomedical engineering industry and for advanced training in ...