The prospect of interfacing the nervous system with electronic devices to stimulate or record from neural tissue suggests numerous possibilities in the field of neuroprosthetics. While the creation of a "six million dollar man" may still be far into the future, neural prostheses are rapidly becoming viable theories for a broad range of patients with injury or disease of the nervous system. Neural Prostheses for Restoration of Sensory and Motor Function presents a general review of exciting scientific discoveries that show the feasibility of using electronic devices to restore motor function in paralyzed patients.
The book is divided into two sections. The first section details some of the most successful sensory and motor prosthetic devices available. It pays particular attention to the present usefulness and future promise of these devices. It explores different approaches to the use of functional electrical stimulation for the restoration of motor control.
The second section highlights the growing field of brain-implantable devices for the control of artificial prosthetic devices or neural prosthetics. It considers the possible scientific and clinical advantages of using implanted devices to record signals from the nervous system and the use of those signals for the restoration of neurological function. The book presents research data that relates to the feasibility of using brain-controlled neurorobotic devices. It offers a new perspective on the practice of combining neurochemical and neurophysiological information to create prosthetic control devices that restore chemical balance to the brain.
Neural Prostheses for Restoration of Sensory and Motor Function examines several different types of neural prosthetic devices as well as recent advances in research for novel devices to restore sensory and motor function in patients with neural damage. It provides authoritative information on neural prosthetic techniques and applications - specifica
Table of Contents
SENSORY AND MOTOR PROSTHESES. Auditory Prostheses. Advances in Upper Extremity Functional Restoration Employing Neuroprostheses. BION™ Implants for Therapeutic and Functional Electrical Stimulation. Intraspinal Chord Microstimulation: Techniques, Perspectives, and Prospects for FES. How to Use Nerve Cuffs to Stimulate, Record, or Modulate Neural Activity. BRAIN CONTROL OF NEURAL PROSTHESES. Engineering the Brain-Machine Interface for Neural Prosthetic Devices. Dynamic Interplay of Neural Signals During the Emergence of Cursor-Related Cortex in a Human Implanted with the Neurotrophic Electrode. Brain Control of Sensorimotor Prosthesis. Drug Deliveries into the Microenvironment of Electrophysiologically Monitored Neurons in the Brain of Behaving Rats and Monkeys.
John K. Chapin, Karen A. Moxon