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?

Biomedical engineering is at the intersection of engineering, technology, biological sciences, and medicine. At Michigan Tech, discover the wide range of careers possible with a biomedical engineering ...

The graduate programs in biomedical engineering at Michigan Tech provide a research-intensive education integrating the engineering sciences with biomedical science and clinical practice. Your ...

Biomedical engineering thrives at the intersection of engineering, medicine, and the life sciences, advancing solutions to today’s most pressing challenges in human health and biology. In a ...

Biomedical engineering is a branch of engineering that integrates life sciences and engineering. Biomedical engineers analyze, design, synthesize, and test products and processes in a variety of areas ...

The interdisciplinary graduate program in biomedical engineering combines core coursework with focused areas of proficiency that allow you more in-depth exposure to your areas of particular interest.

How long does it take? This 129 credit program is designed to be completed in four years. Simply put, biomedical engineers develop technological solutions to medical problems. From prosthetic limbs ...

Biomedical Engineering is an exciting, multidisciplinary field that lies at the interface of medicine, biology and engineering. Biomedical engineers use engineering principles to analyze and solve ...

Biomedical engineering integrates life sciences and engineering education that underlie the development of cost-effective technology for health care, including medical devices and diagnostics, ...

The first undergraduate Biomedical Engineering degree offered by a public university in Massachusetts, the UMass Lowell Biomedical Engineering Program prepares students for careers in the biomedical ...

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