Creating Biomedical Technologies to Improve Health



Grantee News • October 6, 2016

In a study published in the journal Annals of Biomedical Engineering, researchers from Stanford University detailed their work on foam bike helmets. Read more at TechTimes.

Grantee News • October 6, 2016

Women perform better than men on tests of verbal memory throughout life, which may give them a buffer of protection against losing their verbal memory skills in the precursor stages of Alzheimer’s disease. Read more at Medscape.

Grantee News • September 29, 2016
Georgia Institute of Technology researchers have built a better mouse cage, called EnerCage, for scientific experiments on awake, freely behaving small animals. Read more at Georgia Tech News Center.
NIBIB in the News • September 23, 2016

NIBIB staff get a behind-the-scenes look at the Sheikh Zayed Institute of Pediatric Surgical Innovation, which develops technologies to make pediatric surgery more precise, less invasive and pain-free. Read the full story at

Grantee News • September 22, 2016

NIBIB-grantee Rebecca Richards-Kortum has been named a 2016 recipient of the prestigious MacArthur Fellowship. Dr. Richards-Kortum is a bioengineer addressing global health disparities in low-resource settings by developing point-of-care medical technologies and a new approach to engineering education. Read more and watch the video from the MacArthur Foundation.

Grantee News • September 22, 2016

In announcing Rebecca Richards-Kortum as one of this year's 23 fellows, the MacArthur Foundation noted her commitment to "improving access to quality health care for all the world's people. Read more/listen at NPR. 

NIBIB in the News • September 22, 2016

NIBIB researchers have created a nanovaccine that could make a current approach to cancer immunotherapy more effective while also reducing side effects. Read more at

Science Highlights • September 21, 2016
Researchers are testing the use of magnetic bacteria to more efficiently deliver tumor-fighting drugs.
Grantee News • September 21, 2016

A new, inexpensive method for detecting salt concentrations in sweat or other bodily fluids has been developed by biomaterials scientists. The fluorescent sensor, derived from citric acid molecules, is highly sensitive and highly selective for chloride, the key diagnostic marker in cystic fibrosis. Read more at Penn State News.

Grantee News • September 19, 2016

Researchers have discovered a new technique for generating rapidly-differentiating human neural stem cells for use in a variety of tissue engineering applications, including a three-dimensional model of the human brain, according to a new report. Read more at TuftsNow.