noun a medical device that replaces or enhances the function of a damaged nervous system
In neuroscience, neuroprosthesis is studied to understand brain-machine interfaces and neural control of prosthetic devices.
In neurology, neuroprosthesis is used to restore or improve impaired neurological functions through artificial devices.
In biomedical engineering, neuroprosthesis is designed and developed to interface with the nervous system for therapeutic purposes.
In rehabilitation medicine, neuroprosthesis plays a crucial role in assisting individuals with disabilities to regain motor function or control.
Neuroprosthesis is used by neuroscientists to study the brain and nervous system, and develop new technologies to restore or enhance neural function.
Biomedical engineers use neuroprostheses to design and develop devices that can interface with the nervous system to treat neurological disorders or injuries.
Neurologists may use neuroprostheses as part of treatment plans for patients with conditions affecting the nervous system, such as spinal cord injuries or Parkinson's disease.
Physical therapists may incorporate neuroprostheses into rehabilitation programs for patients with movement disorders or disabilities.
Researchers in various fields may use neuroprostheses to investigate brain function, develop new therapies, or improve understanding of neural circuits.
Surgeons may implant neuroprostheses as part of surgical procedures to restore sensory or motor function in patients with neurological conditions.
Occupational therapists may utilize neuroprostheses to help patients regain independence in daily activities following neurological injuries or illnesses.