Biomedical Research

Biomedical engineering employs quantitative methods in physics, chemistry and biology to develop innovative medical technologies.

At CU 麻豆影院, we draw from our strengths in biomechanics 鈥� the application of classical and quantum mechanics to analyze biological systems 鈥� to tackle current and emerging medical challenges. We partner with clinicians and clinical researchers at听 and various industry partners, such as Medtronic and Conmed Electrosurgery.听

Area Strengths

Biomechanics

Alaa Ahmed,听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

Biomaterials

Francois Barthelat, Mark Borden, Carson Bruns,听Virginia Ferguson, Todd Murray,听Wei Tan

Microbubbles and soft matter
Nanomaterials
Biomimetic materials
Material characterization
Precision Biomaterials Interdisciplinary Theme (IRT)

Fluidics

Carson Bruns, Xiaoyun "Sean" Ding, Jean Hertzberg, Debanjan Mukherjee, Wei Tan

Microfluidics
Cardiovascular biomechanics
Drug delivery

Mechanobiology

Maureen Lynch, Corey Neu

Cell and nuclear mechanobiology
Cancer cell mechanobiology

Imaging

Mark Borden, Nick Bottenus,听Todd Murray,听Corey Neu

Multiscale cellular imaging
Theranostics
Ultrasonics
Imaging Science Interdisciplinary Theme (IRT)

Medical Devices

Xiaoyun "Sean" Ding,听Mark Rentschler

Medical mechatronics
Device design
Lab on a chip

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Biomedical Research Impact

Mechanical engineering students develop a soft robot to improve lung examinations

The seniors are working with Medtronic to design a soft robot that would give physicians more control as they examine the deepest part of a patient's lung and make the procedure less abrasive for the patient. Read more

Computer-simulated heart flow model could help treat pediatric heart disease patients

Research from Professor Debanjan Mukherjee and a collaborative team of biomedical engineers, physicians and researchers could enable significant advances for the 40,000 pediatric congenital heart disease patients (CHD) born each year. Read more

Research on manipulating endoskeletal droplets with acoustic radiation published in Nature

The collaborative work could boost health and drug advancements by giving researchers a better understanding of primary and secondary radiation forces in multiphase colloidal systems 鈥� such as emulsions, foams, membranes and gels. Read more

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