Technical Name |
Degradable Soft Microelectrode Patch for High-Resolution Implanted Electrophysiological Sensing, Electrical Stimulation ,and Stem Cell Regenerative Therapy |
Project Operator |
National Yang Ming Chiao Tung University |
Project Host |
黃薇蓁 |
Summary |
Through the design of soft degradable electronic materialsa mass-producedsimple electronic micro-processes, a degradable implantable soft self-adhesive electronic patch allowing high-resolution electrical stimulation, signal sensingcell regeneration therapy is created. The jelly-like sticky electronic patch has the dual roles of medical electronicsregenerative conduits to promote accelerated wound recovery without the need for surgical removal. |
Scientific Breakthrough |
1. The device manufacturing process enables fast, cost-effective,scalable production,it has patent protection.2.This hydrogel electrode demonstrates significantly superior signal transmission compared to the majority of existing literature. 3.The biodegradability of the hydrogel electrodes eliminates the need for secondary surgical removal. 4. In comparison to existing commercial technologies, the device can achieve dual treatment through electrical stimulationstem cell therapy. |
Industrial Applicability |
This technology has the potential to drive advancements in research institutions, academia, medical institutions, biotechnologypharmaceutical companies, as well as artificial intelligence technology companies. Its applications can provide more precisepersonalized diagnosistreatment, thereby reducing the waste of medical resourceslowering healthcare costs. Furthermore, it enables the development of highly targetedspecialized treatment approaches. |
Keyword |
Implantable electronics Hydrogel electronics Neural implanted electrode Transient electronics Cell therapy Microelectrode array Soft electronics Electrical modulation Neurophysiological signal Brain-machine interfaces |