Cyberdyne has developed a robotic system that allows individuals who have lost the function of their lower limbs to experience the pleasure of walking again. This system, known as HAL (Hybrid Assistive Limb) technology, interprets the patient’s intentions to facilitate leg movement using a robotic suit.
The exoskeletons produced by Cyberdyne, known as The Wearable Cyborg™ HAL, are constructed from a special lightweight and durable material called HAL®. Remaining up-to-date with the latest technology is essential in the field of healthcare. India is swiftly advancing in medical facilities thanks to the progress in healthcare and other technologies.
Cyberdyne Therapy for Muscular Degeneration
The HAL Wearable Cyborg™ is designed for individuals with muscular dystrophy, allowing them to experience the joy of standing and walking by providing support to their entire lower skeleton.
Cyberdyne contributes to the improvement, assistance, and regeneration of patients’ physical capabilities.
HAL utilises non-invasive BES-sensing technology to aid people worldwide in recovering their ability to walk (Hybrid Assistive Limb).
The HAL Lower Limb is employed to improve mobility and promote well-being during recovery after an accident or surgery.
The best-sensing technology enables mobile well-being, allowing individuals to walk without external assistance.
Enhancing overall health to maintain independence and a high quality of life.
Cyberdyne Treatment uses HAL to improve/regenerate the function of the wearer. The treatment targets spinal cord injury, stroke, neuromuscular diseases, etc. The process includes–
- Thought Process – The brain first generates command signals. When there is movement in the body, the brain anticipates and transmits necessary signals through the nerves to the muscles.
- Receiving Signals – The muscles then receive the command signals. Each muscle contracts to generate power when it receives the appropriate command signal sent from the brain through the nerves.
- Reading the signals – sent to the muscle by the brain trickling onto the skin surface as faint bio-electric signals.
- Movement – Cyberdyne HAL® moves as the wearer intends to move. HAL controls the power units at each point based on the bio-electrical signals and lets the wearer perform desired movements with their voluntary commands.
- Feedback – information is sent back to the brain when HAL® has almost done assisting the intended movement.
Recovery for Muscular Degeneration with HAL
Patients with muscular dystrophy have shown great efficacy with the new Cyberdyne Robot-HAL® treatment device.
Rehabilitating lower extremities is a critical component of robotic technology development. In today’s ageing society, the number of people with muscle degeneration—which causes gait problems—is steadily rising. People all across the world utilise Cyberdyne technology to get their movement and freedom back.The ultimate goal of physical therapy rehabilitation robots is to increase a patient’s strength and endurance!
Patients suffering from muscular dystrophy, which results in increasing weakening and loss of muscle mass, benefit greatly from the Wearable CyborgTM HAL® suits. It impacts both the central nervous system and the joints. An enormous amount of data about people and things is examined and processed by artificial intelligence, which speeds up the development of a new cybernetics sector that unites people with both physical and virtual space.
Log onto https://rehabmodalities.com/ to learn more about Cyberdyne HAL®. treatment.