Scientists are exploring leading-edge technologies that could transform how cancer is studied, detected and treated by catching it earlier, when it's more treatable and survival rates are highest.

Mohapatra’s goal is to design robust deep learning frameworks capable of adapting to practical sensing scenarios in healthcare, continuous sensing, and audio domains.

Through a five-year, $10.7 million National Institutes of Health grant awarded to Boise State University and co-led with ...

A mechanical engineer by training, he is known for his work in fluid mechanics, biomedical engineering and affordable health ...

The award supports Schulman's efforts to create a programmable language for biomaterials that can bring us closer to making lab-grown organs and tissues ...

A research team led by the Institute for Bioengineering of Catalonia (IBEC) and collaborating with the Biomedical Research ...

Despite enormous progress in the past two decades, the intentional control of bionic prostheses remains a challenge and the ...

The university ran budget deficits for 14 years straight, spending big to raise its profile and enrollment. The plan worked, ...

Faculty from Boise State and University of Rochester are collaborating on a $2.1 million award from the National Science ...

At its core, fluorescence-activated cell sorting has evolved from a laboratory technique into a cornerstone technology of ...

A survey of reasoning behaviour in medical large language models uncovers emerging trends, highlights open challenges, and introduces theoretical frameworks that enhance reasoning behaviour ...

From ingestible pills that track gut health to smart bandages that can autonomously provide required treatment to wounds, ...