This discipline is advancing in both classical and emerging fields of Biomedical Engineering. The discipline has formed a distinctive core research direction, including neural engineering, medical imaging, micro-nano medicine, and tissue engineering, medical devices.

Neuroengineering is an interdisciplinary subject of modern neuroscience, electronics, and information science. It is committed to understanding the neural mechanisms behind biological intelligence, providing new ideas for the next generation of artificial intelligence algorithms, and providing new methods and platforms for the diagnosis, treatment, and rehabilitation of neurological diseases.

Micro-nano medicine and tissue engineering is an interdisciplinary subject of modern life science, medicine, and micro-nano technology. It is committed to developing biochips to provide a new platform and new method for personalized prediction, prevention, and diagnosis of major diseases, and developing efficient nano-drug delivery systems, and constructing biomimetic artificial tissues and high-performance biological materials.

Medical imaging is an interdisciplinary of modern life science, medicine, electronics, and computer science, and also one of the most important clinical diagnosis methods. It is committed to providing new methods and indicators for the early, non-invasive, and dynamic diagnosis of major diseases such as tumors, cardiovascular and cerebrovascular diseases.

Medical instrumentation is an interdisciplinary subject of modern life science, medicine, chemistry, machinery, electronics, and computer science. It is committed to the research and development of innovative medical instruments and equipment, not only serving the diagnosis, treatment, and rehabilitation of major diseases but also serving the basic research of life sciences.