Enhancing performance for action and perception : multisensory integration, neuroplasticity and neuroprosthetics

著者

    • Green, Andrea M.

書誌事項

Enhancing performance for action and perception : multisensory integration, neuroplasticity and neuroprosthetics

edited by Andrea M. Green ... [et al.]

(Progress in brain research, 191-192)

Elsevier, 2011

  • pt. 1
  • pt. 2

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注記

Based on the result of a symposium held at the Université de Montréal, May 2010

Includes bibliographical references and index

内容説明・目次

巻冊次

pt. 2 ISBN 9780444533555

内容説明

This volume of Progess in Brain Research follows on from the 32nd International Symposium of the Groupe de recherche sur le systeme nerveux central (GRSNC), May 2010, and aims to provide an overview of the various neural mechanisms that contribute to learning new motor and sensory skills, and to adapting to changed circumstances, including the use of devices and implants to substitute for lost sensory or motor abilities (brain machine interfaces). The focus is on recent developments covering five major themes: Mechanisms to improve motor performance Neuro-rehabilitation of motor function Mechanisms to enhance sensory perception Cross modal interationc for enhancing sensorimotor performance Assistive technologies to enhance sensorimotor performance This volume focuses on the translation of scientific knowledge into applications and strategies that can help restore lost function following injury or disease including assistive neuroprosthetic technologies to enhance sensorimotor performance and neurorehabilitation.

目次

SECTION I: Assistive Technologies To Enhance Sensorimotor Performance Building the Bionic Eye: An Emerging Reality and OpportunityLotfi B. Merabet Insights from darkness: What the study of blindness has taught us about brain structure and functionRon Kupers and Maurice Ptito A dynamical systems view of motor preparation: Implications for neural prosthetic system designKrishna V. Shenoy, Matthew T. Kaufman, Maneesh Sahani, and Mark M. Churchland Physically Interactive Robotic Technology for NeuroMotor RehabilitationNeville Hogan & Hermano I. Krebs Sensory Feedback for Upper Limb ProsthesesSteven S. Hsiao, Michael Fettiplace, Bejan Darbandi Stimulus-driven changes in sensorimotor behavior and neuronal functional connectivity: Application to brain machine interfaces and neurorehabilitationJames M. Rebesco, Lee E. Miller Inference from populations: going beyond modelsSteven M. Chase & Andrew B. Schwartz Tactile communication systems: Optimizing the display of informationLynette A. Jones Understanding Haptics by Evolving Mechatronic SystemsGerald E. Loeb, George A. Tsianos, Jeremy A. Fishel, Nicholas Wettels and Stefan Schaal SECTION II: Neurorehabilitation Technology Improves Upper Extremity Rehabilitation Jan Kowalczewski and Arthur Prochazka. Guiding task-oriented gait training after stroke or spinal cord injury (SCI) by means of a biomechanical gait analysis.Sylvie Nadeau , Cyril Duclos , Laurent Bouyer and Carol L. Richards Involvement of the corticospinal tract in the control of human gaitDorothy Barthelemy, Michael J. Grey, Jens Bo Nielsen, Laurent Bouyer Vision restoration after brain and retina damage: the "Residual Vision Activation Theory"Bernhard A. Sabel, Petra Henrich-Noack, Anton Fedorov and Carolin Gall Real-Time Functional Magnetic Imaging - Brain Computer Interface And Virtual Reality: Promising Tools For The Treatment Of PaedophiliaPatrice Renaud, Christian Joyal, Mathieu Goyette, Niels Birbaumer Shaping plasticity to enhance recovery after injuryNuma Dancause, PT, PhD & Randolph J. Nudo, PhD
巻冊次

pt. 1 ISBN 9780444537522

内容説明

This volume of Progess in Brain Research follows on from the 32nd International Symposium of the Groupe de recherche sur le systeme nerveux central (GRSNC), May 2010, and aims to provide an overview of the various neural mechanisms that contribute to learning new motor and sensory skills, and to adapting to changed circumstances, including the use of devices and implants to substitute for lost sensory or motor abilities (brain machine interfaces). The focus is on recent developments covering five major themes: Mechanisms to improve motor performance Neuro-rehabilitation of motor function Mechanisms to enhance sensory perception Cross modal interationc for enhancing sensorimotor performance Assistive technologies to enhance sensorimotor performance

目次

1. Naturalistic approaches to sensorimotor control and learning, James Ingram 2. Sensory plasticity and motor learning, David J. Ostry 3. Walk this way: New insights into locomotor learning, Amy J. Bastian 4. Imaging and motor learning, Julien Doyon 5. In-home telerehabilitation with the ReJoyce workstation: development and implementation, Arthur Prochazka 6. Virtual reality for neuromotor rehabilitation, Mindy Levin 7. Training protocols and robotics for rehabilitation, FA Mussa-Ivaldi 8. Maximizing walking capacities by sensory-motor enhancement in neurological populations: targeting impairments during task-oriented training, Sylvie Nadeau 9. Transcranial magnetic stimulation TMS for gait rehabilitation, Jens Nielsen 10. Shaping plasticity to enhance recovery after injury, Numa Dancause 11. Sexual rehabilitation, Christian Joyal 12. Lifelong experience-dependent plasticity in the auditory cortex: basic mechanisms risks and benefits, Etienne de Villers-Sidani 13. Rules of visual cortex plasticity, Mriganka Sur 14. An intimate dialogue between cortex and midbrain integrates information from different senses to produce adaptive behavior, Barry E. Stein 15. Multisensory integration of vision and touch, Krish Sathian 16. Cross-modal plasticity and neurosensory prosthetics: too much of a good thing? Franco Lepore 17. Cross-modal plasticity and its extension to other senses including smell, Franco Lepore 18. The role of neuroplasticity in the effort to restore sight, Lotfi B. Merabet 19. There's more to vision than meets the eyes: the tongue as tactile gateway to the occipital cortex in blindness, Ron Kupers 20. Toward high-performance cortically-controlled motor prostheses, Krishna V. Shenoy 21. Robotics for rehabilitation, Neville Hogan 22. Peripheral electrical stimulation as a code for neuroprosthetic feedback control, Steven Hsiao 23. Electrical stimulation of proprioceptive cortex to control behaviour, Lee Miller 24. Restoration of vision with extrastriate stimulation, Bernhard A Sabel 25. Telecontrol of haptic touch, Lynette Jones 26. Understanding Haptics by Integrating Biomimetic Tactile Sensors into Mechatronic Systems, Gerald E Loeb

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