Biomedical Research
Biomedical engineering employs quantitative methods in physics, chemistry and biology to develop innovative medical technologies.
At ÃÛÌÒ´«Ã½Æƽâ°æÏÂÔØ, we draw from our strengths in biomechanics – the application of classical and quantum mechanics to analyze biological systems – to tackle current and emerging medical challenges. We partner with clinicians and clinical researchers at and various industry partners, such as Medtronic and Conmed Electrosurgery.
Area Strengths
Alaa Ahmed, Francois Barthelat, Virginia Ferguson, Maureen Lynch, Corey Neu, Wei Tan, Franck Vernerey
- Multiscale mechanics of biological material and soft matter
- Computational modeling
- Neural control of movement
- Tissue engineering
Francois Barthelat, Mark Borden, Carson Bruns, Virginia Ferguson, Todd Murray, Wei Tan
- Microbubbles and soft matter
- Nanomaterials
- Biomimetic materials
- Material characterization
- Precision Biomaterials Interdisciplinary Theme (IRT)
Carson Bruns, Xiaoyun "Sean" Ding, Jean Hertzberg, Debanjan Mukherjee, Wei Tan
- Microfluidics
- Cardiovascular biomechanics
- Drug delivery
- Cell and nuclear mechanobiology
- Cancer cell mechanobiology
Mark Borden, Nick Bottenus, Todd Murray, Corey Neu
- Multiscale cellular imaging
- Theranostics
- Ultrasonics
- Imaging Science Interdisciplinary Theme (IRT)
Xiaoyun "Sean" Ding, Mark Rentschler
- Medical mechatronics
- Device design
- Lab on a chip