Creating Biomedical Technologies to Improve Health



Grantee News • June 4, 2018

Researchers have developed a new form of microscopy that allows them to observe the formation and evolution of cell membrane focal adhesions. Read more at Beckman Institute News.

Grantee News • June 1, 2018
Researchers are developing inventive ways to generate a road map of patients’ brains in order to help perform as minimally invasive a surgery as possible. Read more at STAT News
Grantee News • May 25, 2018
Scientists at MIT hope a new sensor small enough to swallow will transform how gut diseases are diagnosed and treated.

Read more at Newsweek.

Science Highlights • May 22, 2018
While several products are available to quickly seal surface wounds, rapidly stopping fatal internal bleeding has proven more difficult. Now researchers from the Department of Biomedical Engineering at Texas A&M University are developing an injectable hydrogel bandage that could save lives in emergencies such as penetrating shrapnel wounds on the battlefield.
Grantee News • May 22, 2018

Scientists have developed a specially adapted 3D printer to build therapeutic biomaterials from multiple materials. The advance could be a step toward on-demand printing of complex artificial tissues for use in transplants and other surgeries. Watch the video here.

Science Highlights • May 21, 2018
A team of Cornell University engineers and nutritionists with funding from the NIBIB have designed and tested a small, portable diagnostic system that can be used in the field to test blood for vitamin A and iron deficiencies.
Grantee News • May 9, 2018

A new kind of MRI component in the shape of a glove delivers the first clear images of bones, tendons and ligaments moving together. Read more at Science Daily.

Press Releases • May 7, 2018
Scientists at the National Institute of Biomedical Imaging and Bioengineering (NIBIB) have combined two different microscope technologies to create sharper images of rapidly moving processes inside a cell.
Science Highlights • May 3, 2018
Precision cancer treatment relies on obtaining molecular information about the tumor to guide effective treatment decisions. Bioengineers have developed micro-technologies that capture extracellular vesicles (EVs) released by brain tumors. The vesicles carry samples of the mutated genetic material and proteins causing malignancy that researchers can analyze to optimize treatment.
Grantee News • May 3, 2018

A new study describes how an updated version of the microscope slide can enable scientists to see tiny objects while also measuring their temperature. The advancement, made possible by a new transparent, has the potential to streamline and enhance scientific research worldwide, from clandestine government biology labs to high school chemistry classes. It may also have implications in computers, electronics and other industries. Read more at the University at Buffalo News.