The interdisciplinary nature of biological engineering, often referred to as bioengineering, leads to jobs in healthcare, business, education, and government. Biological engineering blends engineering ...

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?

Biological engineering vs. biology are easy to confuse. If you don't want to make that mistake, read on. "Biologist" is an umbrella term encompassing many professions involving studying life and ...

Biomedical Engineering (BME) is the application of engineering principles and problem-solving techniques to biology and medicine. BME knowledge and skills play important roles in modern healthcare — ...

The amalgamation of the principles and design concepts of engineering with medicine and biology for healthcare purposes has led to the evolution of a new and innovative field of study called ...

Biotechnology and biomedical engineering are distinct yet impactful fields shaping healthcare's future. Biotechnology delves into biological systems for drug development and genetic breakthroughs, ...

Chemical and biological engineers use concepts from the biological sciences to inspire and guide the development and production of chemicals, pharmaceuticals and advanced biomaterials. Without the ...

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

This degree seeks to leverage the measurement, theory and manipulation of biomolecules and biological systems for addressing the next challenges in our world. Recent advancements in imaging, data ...

Bachelor of Science in Biomedical Engineering program is accredited by the Engineering Accreditation Commission(s) of ABET, under the General Criteria and the Biomedical Engineering Program Criteria.