Bio-Feedback Devices
- Interactive computer programs or mobile devices
Wearable devices
The ability of this treatment strategy to enhance lower-limb, upper-limb, and clinical application is recognized for the body trunk.
The secret to nurturing functional advancement through Cybernics Treatment focuses more on the return of feedback from the experience of actual movement to the human brain than it does on simply transferring voluntary command signals from the brain to the musculoskeletal system through the spinal cord and peripheral nerves.
The functional improvement/regeneration technology employing HAL based on this iBF Theory is a new therapeutic method that permits the improvement/regeneration of human brain-nerve-musculoskeletal functions by triggering the body’s intrinsic capacity for self-healing.
- Medical technology developed using Cybernics is known as medical Cyberdyne
- The combination of HAL and regenerative medicine is called Cyberdyne treatment with stem cells.
- The combination of HAL and pharmaceuticals is called Cyberdyne treatment with drugs
Due to the improvements in healthcare and other technologies, India is advancing quickly toward improved medical facilities.
Cyberdyne is a novel technology currently being tested, and it operates via robotics. This procedure makes use of a Hybrid Assistive Limb (HAL) to aid the patient. The newly developed technology is based on IoH/IoT technology, which is a novel idea (Internet of humans and things).
This technology connects the supercomputer to the human neurological, physiological, and environmental systems.
Artificial intelligence (AI) is used to gather, analyze, and process large amounts of data about people and things. This accelerates the development of the emerging Cybernics sector, which unites people with cyberspace and physical space.
In this specific Cyberdyne procedure, the patient’s brain receives affirmative feedback that the targeted action was carried out. This improves the signal route between the brain and the muscles and eventually enables patients to learn to perform the movements independently of HAL.