biomedical engineering

Research from the Texas A&M College of Engineering could lead to new approaches to treating viruses and cancers.

The interaction between neurons and infrared light could open doors in expanding disease treatment options and improving medical devices.

The results of their organ-on-a-chip research provides a glimpse into the interactions between tumors, blood vessels and platelets.

The grant from the Cancer Prevention and Research Institute of Texas will support Tanmay Lele's research furthering knowledge of cancer and how it progresses.

A $3.6 million grant from the National Institutes of Health will allow the team to create a wrist-worn system that can continuously monitor a user's blood pressure while they are asleep.

Jose Wippold is adapting an existing microfluidic sensor he developed to look for antibodies that can fight against the disease caused by the novel coronavirus.

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.