biomedical engineering

Texas A&M researchers have created superior bone grafts to promote fast and precise bone healing.

The material for craniofacial bone grafts can facilitate cell regrowth and be tailored to an individual's face and skull structure.

A 2D nanosheet developed by scientists in the Department of Biomedical Engineering could be used to control cell response via light.

Texas A&M biomedical engineering researchers designed a medical device that mimics blood vessels to design and monitor drugs for patients with clotting disorders.

A printable bioink developed by Texas A&M associate professor Akhilesh K. Gaharwar could be used to create anatomical-scale functional tissues.

Texas A&M researchers say the system could help gout patients monitor their urate levels.

Dr. Roderic Pettigrew, Texas A&M EnMed executive dean and a professor of biomedical engineering, has joined the prestigious honorary society that recognizes individuals advancing the public good.

Emergency room physicians asked Texas A&M’s John Criscione for help as supplies diminish.

A type of biodegradable hydrogel has gained much attention for its potential to deliver stem cells for body tissue repair.

Researchers from Texas A&M University have developed a new platform to assist with wound healing and tissue implants.