Tissue-engineered and chip-based models are changing how scientists study early cancer, leading to more accurate and humane ...

Patients with implanted medical devices like orthopedic joint replacements, pacemakers, and artificial heart valves run a small but significant risk that these devices get infected with bacterial ...

University of Texas at Dallas researchers have developed biosensor technology that when combined with artificial intelligence ...

BMES looks for a chapter that demonstrates “they are second to only one” as well as strong growth, initiatives, and ...

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.

The modified toys will be donated to local organizations and schools that have children with disabilities such as Angela’s House and Stony Brook Children’s Hospital for kids to enjoy. Diaz and Dr.

UD chemical engineer wins the AIChE Langer Prize for efforts to harness biology to manage plastic waste sustainably ...

A new bioengineering platform enables the large-scale production of human kidney organoids that can be perfused within pig kidneys, maintaining viability and function without immune rejection.

A research team has developed pioneering technology that enables human kidney organoids to be produced on a scalable basis. These organoids can then be combined with pig kidneys outside the body and ...

The WashU Medicine Mallinckrodt Institute of Radiology is establishing the Center for Computational and AI-enabled Imaging ...