Johns Hopkins engineers use AI to analyze tissue patterns and gain new insights into why some patients respond better to specific breast cancer treatments.

Five current and former students from the Johns Hopkins Department of Biomedical Engineering have been awarded the highly competitive National Science Foundation (NSF) Graduate Research Fellowship ...

A new AI model is much better than doctors at identifying patients likely to experience cardiac arrest. The linchpin is the system’s ability to analyze long-underused heart imaging, alongside a full ...

Mild Traumatic Brain Injury (mTBI) accounts for about 10% of all sports-related injuries each year, posing serious health risks if athletes return to play too soon. Although return-to-play protocols ...

The focus of the research in the Reddy lab is to begin to understand how the nuclear periphery and other subcompartments contribute to general nuclear architecture and to specific gene regulation.

Two areas of the brain may work in combination to tell the brain when it’s “feeling” tired. The results may provide a way to ...

Annie Kathuria’s lab is spearheading breakthroughs in organoid tissue engineering, leveraging the regenerative capacities of pluripotent stem cells to craft highly detailed 3D tissue models or ...

In studies in mice and pigs, Grayson’s lab has used 3D printers to create scaffolds made from biodegradable polymers combined with other natural materials in the exact shape of the facial defects.

A total of 15 undergraduate students studying biomedical engineering received the Provost Undergraduate Research Award (PURA) to assist with independent research, scholarly and creative projects over ...

Amputees often experience the sensation of a “phantom limb”—a feeling that a missing body part is still there. That sensory illusion is closer to becoming a reality thanks to a team of engineers at ...