Neural implants are systems technically designed for simulating parts of the nervous system. They operate with the assistance of electrical circuits implanted on the brain. Additionally, brain implants track the nerve cell’s electrical activity to enhance physical movement, senses, and memory. Further, Prosthetics is an activity that involves making of artificial limbs to substitute the upper part of a knee on the leg.
Currently, neuroscientists have successfully been able to curb retinal and cochlear prostheses for persons lacking sensory functions due to spinal cord injury. Moreover, neuroscientists have also developed devices that have the capability of reading chemical and electrical motions from the nervous system. While nervous and neuromuscular diseases and injuries remain a frontier of medical scientific and technological research, the next decade will see incredible headway in that arena, according to Christopher M. Placitella.
The evolution of neural prosthetics devices
A device such as a brain-computer interface device has been under evolution for a period to aid neuroscientists in bettering the future neural prosthetics. Some these neural devices presently exist in the market ranging from for games and toys to commercialized products and research projects. Various projects conducted to research about the development of neural prosthetic devices and a brain-computer interface technology is still in progress. For example, scientists are looking for a way to control how brain cells control processes regarding information technology. Additionally, researchers are actively involved in finding devices which can be used to control prosthetic limbs.
The future of neural prosthetics devices
Neural Prosthetics are devices which assist individuals who have epilepsy, Alzheimer’s disease, chronic pain, and traumatic brain injury. Additionally, these devices help people living with post-traumatic stress disorder, people sustaining spinal cord injury, and individuals having speech disabilities. Researchers have put much effort on enhancing the performance of different kinds of materials to be utilized in neural prosthetics. Besides, efforts have also been made to aid the development of interface technology that lets micro devices to be implanted securely in human tissues to last for lengthy periods.
Over the last five years, neural devices have been utilized to radically enhance the way the brain functions and ultimately adjusting the human living condition. It is expected that soon, neural implants and other neuroprosthetic devices will be used to expand the human brain’s capability in a dramatic way for persons suffering from spinal cord injury. Currently, a method well known as targeted muscle reinnervation has been invented to aid in the reclamation of the nerve cells from a limb which has been amputated to healthy muscles.
In conclusion, an individual suffering from a spinal cord injury, and other related injuries that can cause brain damage are advised to consider using neural prosthetics devices for restoring the brain’s cognitive function. This will enable the victim to process information correctly.