The Shoffstall lab focuses on two primary areas of research: 1) biomedical materials design and testing (including injectable and resorbable electrodes, novel material coatings and substrates, and ...

From targeting cancer cells to engineering 3D tissue, Michigan Tech's Biomedical Micro-Devices Lab operates at the intersection of biology and precision engineering. Just as cells are the building ...

Miami University’s Biomedical Engineering and Biotechnology research cluster leverages interdisciplinary collaboration to solve critical health and clinical challenges. Research spans from tissue ...

Biomedical engineering education is evolving with the integration of AI tools that streamline research, improve data literacy, and enhance regulatory understanding. From detecting bias in medical AI ...

Globally, and especially in low- and middle-income countries (LMICs), a significant portion of the population lacks access to essential health care services. Although there are many contributing ...

Many biomedical engineers assume that impact happens only at the bench. In reality, their analytical mindset, systems thinking, and communication skills are in high demand across the business, ...

Join a department home to interdisciplinary faculty, with appointments in engineering, medicine, and arts and sciences, who lead revolutionary research that employs the principles of engineering to ...

As a University of Dayton School of Engineering student, you won't just learn about engineering in the classroom — you'll get the chance to experience it firsthand. Our state-of-the-art facilities ...

Explore how the biomedical engineering bachelor's degree compares with three related degrees within Michigan Technological University, offering insight into curriculum similarities, shared ...

Biomedical engineering is an interdisciplinary field that combines the best of biology, medicine and engineering design to produce some of the world’s greatest healthcare innovations. Sound exciting?