The awards will allow grantees to address sex differences in both preclinical and clinical studies.

In the race to find more effective ways to treat cancer, Boise State University biophysicist Daniel Fologea is working outside the rules of general mathematics that say one plus one equals two. In his world, one plus one adds up to a whole lot more.

Carnegie Mellon University professor Keith Cook has received a four-year, $2.4 million grant from the National Institutes of Health (NIH) to support research and development of artificial lungs that patients may use long term in the comfort of their own homes while waiting for a lung transplant. Cook, an associate professor in the Department of Biomedical Engineering, will lead the project and collaborate with researchers from the University of Washington, Columbia University and Allegheny General Hospital in Pittsburgh.

A new class of synthetic platelet-like particles could augment natural blood clotting for the emergency treatment of traumatic injuries – and potentially offer doctors a new option for curbing surgical bleeding and addressing certain blood clotting disorders without the need for transfusions of natural platelets.

It may look like fresh blood and flow like fresh blood, but the longer blood is stored, the less it can carry oxygen into the tiny microcapillaries of the body, says a new study from University of Illinois researchers.

What if repairing large segments of damaged muscle tissue was as simple as mobilizing the body’s stem cells to the site of the injury? New research in mice and rats, conducted at Wake Forest Baptist Medical Center’s Institute for Regenerative Medicine, suggests that “in body” regeneration of muscle tissue might be possible by harnessing the body’s natural healing powers.

In a new study that could ultimately lead to many new medicines, scientists from the Florida campus of The Scripps Research Institute (TSRI) have adapted a chemical approach to turn diseased cells into unique manufacturing sites for molecules that can treat a form of muscular dystrophy.

Antibody therapy could fight second-most deadly strain of virus.

Companies combine expertise to produce cytomegalovirus vaccine candidates.

Since they were first developed a quarter-century ago, carbon nanotubes (CNTs) have impressed scientists with their mechanical strength and stiffness, their optical performance, and their ability to conduct heat and electricity.