Electrical stimulation of vagus nerve via implantable stimulators can effectively suppress inflammatory responses, offering a novel strategy for treating autoimmune diseases.

Researchers have developed a flexible 3D bioelectronic device that integrates living brain cells with embedded electronics, ...

Researchers at Princeton University have developed a three-dimensional bioelectronic device that integrates living brain cells with embedded circuitry to perform pattern recognition tasks. Biological ...

A new hydrogel electrolyte enables fast, low-power solid-state circuits for implantable bioelectronics, offering high precision, stability, and compatibility with complex neural systems. (Nanowerk ...

A new paper led by Professor Imanuel Lerman of UC San Diego provides a review of the field of bioelectronic medicine and the most promising opportunities for life-changing new therapies and ...

Researchers at Princeton University and the University of Cambridge have announced separate advances in brain-inspired computing that could reshape AI hardware. Princeton created a 3D bioelectronic ...