The original story “ Electrical stimulation can restore ability to move limbs after spinal cord injury ” is published in The ...

In just his second year at Pittsburg State University, a Biology major already has earned statewide accolades for his ...

A newly identified role for the neuronal MPS shows it controls nutrient uptake by acting as a gatekeeper. Its disruption ...

COLUMBUS, Ohio - Ohio State University’s trustees unanimously voted Thursday to make Ravi V. Bellamkonda the next president of the school, less than a week after the previous president resigned amid ...

An interdisciplinary team of engineers and surgeons at Penn State have created a new class of biomaterial that can better ...

Biomedical engineer advances sustainable wound care by converting chicken feather waste into biocompatible hydrogel ...

Researchers and graduate students at the University of Alabama at Birmingham are developing a new at-home cervical cancer screening device aimed at increasing access to screening and improving early ...

The Terasaki Institute for Biomedical Innovation (TIBI) and Keck Graduate Institute (KGI) have announced a new collaborative research partnership designed to accelerate biomedical innovation through ...

Postdoctoral researcher Mofizur Rahman from the University of Kansas discusses his work, which focuses on engineering ...

Researchers developed hair-thin polymer fibers that bend and contract with electricity, enabling soft robotic actuators that can be woven into textiles.

The effects of spinal cord injuries are complex and multifaceted. People lose not only the ability to control the movement of their limbs, but also the ability to receive sensory feedback from them.