Johns Hopkins biomedical engineers Mihaela Pertea and Sri Sarma honored for outstanding contributions to engineering and ...

With NIH support, biomedical engineer Sri Sarma develops neurotechnologies to improve understanding and treatment of epilepsy ...

Federal funding for biomedical research pays off by enabling basic discoveries that lead to lifesaving treatments, writes ...

Hopkins BME students go on to become leaders in industry, medicine, and science, all with a passion for solving problems.

Rachel Karchin is a pioneer in computational cancer genomics, developing innovative algorithms for variant interpretation and tumor evolution. She created CHASM, the first widely used statistical ...

Alexis Battle is a 2016 Searle Scholar and a professor of biomedical engineering and computer science, with a secondary appointment in genetic medicine. She is the director of the Malone Center for ...

“Nano and Micro” Project: We are developing novel microfabricated sensors and devices for neuroscience research. The first example is the development of microelectromechanical (MEMS) techniques that ...

The BME undergraduate program contains a set of “core knowledge,” defined and taught by the faculty, that future biomedical engineers should possess. The core includes courses in molecular and ...

Johns Hopkins Biomedical Engineering’s ISPEED program is a residential, four-week summer program for talented high-school students who are passionate about exploring concepts in biomedical engineering ...

Jeff Coller is the Bloomberg Distinguished Professor of RNA Biology and Therapeutics at Johns Hopkins University. His lab has made seminal discoveries in the area of messenger RNA stability and ...