Rosenberg was born with oculocutaneous albinism—a genetic condition that affects the eyes, skin, and hair, causing reduced ...
It wasn’t the most direct path to becoming a materials scientist and biomedical engineer, but Younan Xia ended up in his ...
How does the brain prepare to hear before birth? Johns Hopkins researchers discovered an internal neural "shortcut" that ...
Spend one year specializing in advanced BME focus areas and solving real-world engineering problems related to human health and disease through project-based courses. Spend an optional second year ...
Our students and faculty are pioneering new technologies to understand how the interactions between molecules, cells, tissues, and organs maintain health and contribute to disease. Key research areas ...
Abstract: Our project presents an EEG based study of schizophrenia subtypes focusing on differences in treatment response. The work examines whether patterns in brain activity and functional ...
Jeff Coller, a pioneering RNA biologist and a professor at Johns Hopkins University, has spent the past year vehemently ...
What if doctors could stabilize blood pressure using only sound waves? Researchers at Johns Hopkins University are pioneering a way to gently “tickle” the spinal cord with ultrasound to regulate blood ...
Working with “digital twins” of patients’ hearts, doctors improved cardiac ablation outcomes for patients with life-threatening arrythmias. In the first clinical trials for cardiac digital twins ...
Transforming medicine, one discovery at a time. From groundbreaking medical devices to transformative new treatments, Hopkins BME researchers are engineering the future of medicine and pushing the ...
A team of computational and clinical researchers from Johns Hopkins University has developed a ‘genotype-specific digital-twin’ strategy, nicknamed Geno-DT, to create a virtual replica of a patient’s ...
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