Advance your career with Purdue University’s online Master of Science in Biomedical Engineering. Designed for professionals, this flexible program explores medical device design, tissue engineering, ...

The field of regenerative medicine is entering an era of unprecedented convergence, bringing together intelligent biomaterials, biomedical hydrogels, and ...

Nanoscale structure-property relationships of biological materials, genetic and molecular origins of soft joint tissue diseases, biomaterials under extreme conditions, coupling between ...

Wesley LaBarge and the scaffold-free bioprinterThe dream of tissue engineering is a computer-controlled manufacturing of complex and functional human tissue for potential organ regeneration or ...

Growing cartilage-forming cells under tension improves strength Lab-grown material similar mechanical, chemical properties to natural cartilage Artificial cartilage could help people with damaged ...

Tissue regeneration is a rapidly evolving area of biomedical research, where nanotechnology is playing a pivotal role in deciphering and controlling the ...

The biomedical engineering curriculum develops graduates who can identify and address unmet clinical, diagnostic, and healthcare needs by using their knowledge of modern theories, engineering systems, ...

Professor Corey Neu and PhD graduate Benjamin Seelbinder. Header image: Tissues with diverse structural and mechanical characteristics. Biomedical Engineering Professor Corey Neu and Benjamin ...

Advance innovation in health technology with UMass Lowell’s Doctor of Philosophy (Ph.D.) in Biomedical Engineering. As a biomedical engineer, you’re at the intersection of medicine, technology and ...

Biomedical engineering will help us go beyond the antibiotics, antivirals, and steroids that dominated last century’s medical arsenal. From drug-carrying nanorobots to genetic and tissue engineering, ...