Insights could not only pave the way for new treatment strategies for genetic disorders, cancer and neurodegenerative diseases, but also enhance gene-editing technologies.

As temperatures rise, proper hydration and heat acclimatization can help maintain physical and mental health.

A BME team is putting a synthetic flag on tumors, then engineering a patient’s immune cells to find and eliminate cancer.

The device is the first of its kind to continuously monitor how the skin exchanges gases with the environment, helping to monitor skin health and wound healing.

A Georgia Tech doctoral student’s dissertation could help physicians diagnose neuropsychiatric disorders, including schizophrenia, autism, and Alzheimer’s disease.

The device, created by Georgia Tech students, uses AI to make chronic wound dressings 30% more efficient, which could save time and money.

Measles can damage the lungs and immune system, and also inflict permanent brain damage.

A significant grant from the Marcus Foundation will support the Institute's research into making cell therapies more affordable.

Using a simple setup and advanced processing, engineers can reliably detect physiological signals such as temperature, breathing, and pulse. The technology could open new possibilities for early disease detection.

David Myers' hands-on microfluidics course lets students build sticker-based devices, enhancing understanding of miniaturization science through active learning.