More by Jonathan Griffin

Introducing medical devices — commonly made of materials such as titanium, silicone, or collagen — into our bodies can elicit a host of different immune responses. While some responses can harm our bodies, others can help heal them. A new study fills in a critical piece of the puzzle.

Navigating the labyrinthine vasculature of the brain with standard surgical instruments can be incredibly challenging, even for the steadiest of hands. But with some robotic assistance, brain surgeons could potentially operate with far greater ease.

Now in its 12th year, the DEBUT Challenge calls on teams of undergraduate students to produce technological solutions to a broad spectrum of unmet health needs.

Researchers from Washington University in St. Louis have used ultrasound to nudge rodents into an energy-conserving state that mirrors a natural, hibernation-like survival mechanism known as torpor. The technique could help buy precious time for patients in critical care.

For most of our tissues and cells, a lack of oxygen, or hypoxia, is bad news. However, cancer cells can thrive in these conditions, rendering tumors less susceptible to anti-cancer treatments including radiation. Now, new research may offer a way to break through cancer’s hypoxia-induced defenses.

One day, the ultrasound equipment that health care professionals use for essential diagnostic imaging may no longer be confined to the clinic, instead operated by patients in the comfort of their homes. New research marks a major step toward that future.

Researchers have shown that an automated cancer diagnostic method, which pairs cutting-edge ultrasound techniques with artificial intelligence, can accurately diagnose thyroid cancer, of which there are more than 40,000 new cases every year.

Tissue engineering research has uncovered that a skin cell type could be a new therapeutic target to accelerate the healing of burns and possibly other wounds.