Scientists have engineered a microchip coated with blood vessel cells to learn more about the conditions under which nanoparticles accumulate in the plaque-filled arteries of patients with atherosclerosis, the underlying cause of myocardial infarctio

Built for the 1996 Olympics, the Campus Recreation Center helps land Georgia Tech on the Fittest Colleges in America List

Technology has been developed for a catheter-based device that would provide forward-looking, real-time, three-dimensional imaging from inside the heart and blood vessels.

A new study found evidence that assessing the route to cancer on a case-by-case basis might make more sense than basing a patient’s cancer treatment on commonly disrupted genes and pathways.

Microneedle patches may allow self-administration of influenza vaccine, a new study shows.

A new study found that neural circuits in the brain rapidly multitask between detecting and discriminating sensory input, such as headlights in the distance.

A new type of biomolecular tweezers could help researchers study how mechanical forces affect the biochemical activity of cells and proteins.

A new microfluidic method for evaluating drugs commonly used for preventing heart attacks has found that while aspirin can prevent dangerous blood clots in some at-risk patients, it may not be effective in all patients with narrowed arteries.

Researchers have developed a new understanding of the T-cell recognition process that accounts for mechanical force.

By creating proactive, accessible health and wellness technologies, Georgia Tech has taken significant steps in enabling people to control their own health to greater, more effective degrees.