Merging electronic technologies with neural systems has unlocked new possibilities for communication, monitoring, and therapeutic control. Bioelectronics & neural interfaces focuses on designing implantable and wearable devices that interface directly with the nervous system to modulate, restore, or enhance biological functions. These innovations are used in neuroprosthetics, spinal cord repair, and brain-machine interfaces, facilitating improved outcomes in motor disorders and sensory deficits. Advanced conductive biomaterials and flexible circuits enhance compatibility and long-term integration. Bioelectronics & neural interfaces also support precision feedback in tissue-engineered systems, allowing real-time monitoring of regeneration and adaptive responses. The convergence of neuroengineering and regenerative medicine holds promise for restoring lost neurological functions and enhancing patient quality of life.
Title : Eliminating implants infections with nanomedicine: Human results
Thomas J Webster, Interstellar Therapeutics, United States
Title : Biodistribution and gene targeting in regenerative medicine
Nagy Habib, Imperial College London, United Kingdom
Title : Graphene, butterfly structures, and stem cells: A revolution in surgical implants
Alexander Seifalian, Nanotechnology & Regenerative Medicine Commercialisation Centre, London NW1 0NH, United Kingdom
Title : Precision in cartilage repair: Breakthroughs in biofabrication process optimization
Pedro Morouco, Polytechnic of Leiria, Portugal
Title : Keratin-TMAO wound dressing promote tissue recovery in diabetic rats via activation of M2 macrophages
Marek Konop, Medical University of Warsaw, Poland
Title : Assessing geometric simplifications in vertebral modeling for reliable numerical analysis of intervertebral discs
Oleg Ardatov, Vilnius University, Lithuania