Biomedical electronics and instruments based on electrical engineering for diagnostics and therapeutic treatments of biological systems, focusing on the theory and design principles in modern biomedical electronics using electromagnetic properties. Topics include circuit design for implanted medical devices, physics and signal processing for medical imaging systems, techniques for neural measurements and neuro-decoding, and electronics for drug delivery.
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Implantable systems will revolutionize health care in the coming decades. Potential applications include implantable sensors and monitoring devices for preventive and post-surgery monitoring; drug delivery systems that can be placed closer to cancer cells and are able to administer dosage automatically; medical robots that perform surgery inside patients with greater precision and less pain; and neural implants for brain-machine interface. This class focuses on the analysis and design of remotely-powered, miniature implantable devices for those applications.
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