Neuroengineering

Neuroengineering

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by Daniel J. DiLorenzo
     
 

Based on a foundation of science and empirical observation, engineering research and design has brought science fiction into science fact. The convergence of neuroscience and technology is facilitating the development of therapies that not long ago would have seemed unimaginable, if not impossible. With contributions from pioneers in industry, academia, and

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Overview

Based on a foundation of science and empirical observation, engineering research and design has brought science fiction into science fact. The convergence of neuroscience and technology is facilitating the development of therapies that not long ago would have seemed unimaginable, if not impossible. With contributions from pioneers in industry, academia, and clinical medicine, Neuroengineering provides an understanding of the history, physiology and the most promising engineering technologies.

The book presents clinical applications of neuromodulation and a detailed review of the science and mechanisms of action underlying deep brain stimulation. Contributions include discussions of seizure control, clinical, surgical, and technological aspects of responsive neurostimulation, and a thorough review of spinal cord stimulation for pain control. The book highlights promising technologies and applications for neural augmentation, brain and computer interfaces, and motor protheses. It concludes with coverage of the science underlying current neurostimulation techniques and new paradigm-shifting neuromodulation technologies.

We are on the cusp of a technological revolution that promises to have more of an impact on human health, disease, and quality of life than any other in recent history. Its impact on medicine and society promises to be as dramatic as that of the development of antibiotics. The transition of neural engineering from basic research to intense commercialization and widespread clinical application and acceptance is just around the corner. Providing in-depth coverage of cutting-edge developments in technology and clinical practice, the book presents detailed descriptions of technologies, science, and clinical results that build a foundation for the future.

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Product Details

ISBN-13:
9780849381744
Publisher:
Taylor & Francis
Publication date:
12/12/2007
Edition description:
New Edition
Pages:
408
Sales rank:
1,314,244
Product dimensions:
7.00(w) x 10.10(h) x 1.00(d)

Table of Contents

History and Overview of Neural Engineering, D. DiLorenzo and R.E. Gross
Cellular Mechanisms of Action of Therapeutic Brain Stimulation, Z. Kiss and T. Anderson
Interfering with the Genesis and Propagation of Epileptic Seizures by Neuromodulation, A.L. Velasco, F. Velasco, M. Velasco, B. Boleaga, M. Kuri, F. Jiménez, and J.M. Núñez
Responsive Neurostimulation for Epilepsy — Neurosurgical Experience: Patient Selection and Implantation Technique, K,N. Fountas and J,R. Smith
Responsive Neurostimulation for Epilepsy: RNS™ Technology and Clinical Studies, T.K. Tcheng and M. Morrell
Deep Brain Stimulation for Pain Management, D.E. Richardson
Spinal Cord Stimulation for Pain Management, A.W. Burton and P.C. Phan
Motor Cortex Stimulation for Pain Management, S.P. Lad, K. Chao, and J.M. Henderson
Deep Brain Stimulation for Obsessive Compulsive Disorder, W.F. Asaad and E.N. Eskandar
Cochlear Prostheses: An Introduction, D.K. Eddington
Visual Prostheses, R.J. Greenberg
General Clinical Issues Relevant to Brain–Computer Interfaces, E.C. Leuthardt, J.G. Ojemann, G. Schalk, and D. Moran
Implantable Brain–Computer Interfaces: Neurosurgical Experience and Perspective, R.A.E. Bakay
Comparing Electrodes for Use as Cortical Control Signals: Tiny Tines, Tiny Wires, or Tiny Cones on Wires: Which Is Best? P.R. Kennedy
Neuromotor Prosthetics: Design and Future Directions, M.D. Serruya, S.-P. Kim, and J.P. Donoghue
Transcutaneous FES for Ambulation: The Parastep System, D. Graupe
Development of a Multifunctional 22-Channel Functional Electrical Stimulator for Paraplegia, R. Davis, T. Johnston, B. Smith, R. Betz, T. Houdayer, and A. Barriskill
An Implantable Bionic Network of Injectable Neural Prosthetic Devices: The Future Platform for Functional Electrical Stimulation and Sensing to Restore Movement and Sensation, J. Schulman, P. Mobley, J. Wolfe, R. Davis, and I. Arcos
Tapping into the Spinal Cord for Restoring Function after Spinal Cord Injury, L. Guevremont and V.K Mushahwar
Theory and Physiology of Electrical Stimulation of the Central Nervous System, W.M. Grill
Transient Optical Nerve Stimulation: Concepts and Methodology of Pulsed Infrared Laser Stimulation of the Peripheral Nerve In Vivo, J.D. Wells, A. Mahadevan-Jansen, C. Kao, P.E. Konrad, and E.D. Jansen
Transcranial Magnetic Stimulation of Deep Brain Regions, Y. Roth and A. Zangen
Application of Neural Plasticity for Vision Restoration after Brain Damage, I. Pasley, S. Jobke, J. Gudlin, and B.A. Sabel Index

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