Researchers have developed a new class of ultra-thin, flexible bioelectronic material that can seamlessly interface with ...

Producing the highest accuracy, the 9-gene set produced became the basis of the final classifier. When applied to multiple ...

Our muscles are nature's actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate "biohybrid robots" made ...

The boundary between living tissue and machine is blurring in MIT laboratories. Engineers there have developed a bio-inspired ...

It may contain inaccuracies due to the limitations of machine translation. From left: Professor Son Donghee of the Center for Neuroscience Imaging Research at the Institute for Basic Science (IBS), ...

Calisthenics is an age-old form of fitness that uses little or no equipment and relies on body weight for resistance. It's ...

A radically miniaturized brain implant called BISC is redefining what’s possible in human–computer interaction, offering a ...

Bruker's Acquifer Imaging Machine (IM) is a fully automated widefield microscope with both brightfield and fluorescence ...

Researchers created a 350nm-thick bioelectronic film that turns soft when wet to stick to hearts and brains without glue, revolutionizing medical monitoring.

Artificial intelligence is rapidly transforming clinical medicine, with AI-powered tools increasingly being used for ...

A 3 mm³ brain-computer interface with 65,536 electrodes delivers 100 Mbps neural signals, redefining wireless BCI performance ...

Even before she became a physician, Cathleen M. McCabe, MD, knew she wanted to help people across the world.Growing up in New ...