Coverart for item
The Resource Neurorehabilitation technology, David J. Reinkensmeyer, Volker Dietz, editors

Neurorehabilitation technology, David J. Reinkensmeyer, Volker Dietz, editors

Label
Neurorehabilitation technology
Title
Neurorehabilitation technology
Statement of responsibility
David J. Reinkensmeyer, Volker Dietz, editors
Contributor
Subject
Language
eng
Summary
This revised, updated second edition provides an accessible, practical overview of major areas of technical development and clinical application in the field of neurorehabilitation movement therapy. The initial section provides a rationale for technology application in movement therapy by summarizing recent findings in neuroplasticity and motor learning. The following section then explains the state of the art in human-machine interaction requirements for clinical rehabilitation practice. Subsequent sections describe the ongoing revolution in robotic therapy for upper extremity movement and for walking, and then describe other emerging technologies including electrical stimulation, virtual reality, wearable sensors, and brain-computer interfaces. The promises and limitations of these technologies in neurorehabilitation are discussed. Throughout the book the chapters provide detailed practical information on state-of-the-art clinical applications of these devices following stroke, spinal cord injury, and other neurologic disorders. The text is illustrated throughout with photographs and schematic diagrams which serve to clarify the information for the reader. Neurorehabilitation Technology, Second Edition is a valuable resource for neurologists, biomedical engineers, roboticists, rehabilitation specialists, physiotherapists, occupational therapists and those training in these fields
Dewey number
616.8/046
Illustrations
illustrations
Index
index present
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
  • Reinkensmeyer, David J.,
  • Dietz, Volker,
http://library.link/vocab/subjectName
  • Nervous system
  • Medical rehabilitation
  • Physical therapy
  • Robotics in medicine
Label
Neurorehabilitation technology, David J. Reinkensmeyer, Volker Dietz, editors
Instantiates
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
  • Movement Neuroscience Foundations of Neurorehabilitation
  • Robert L. Sainburg and Pratik K. Mutha
  • 3.
  • Designing Robots That Challenge to Optimize Motor Learning
  • David A. Brown , Timothy D. Lee , David J. Reinkensmeyer , and Jaime E. Duarte
  • 4.
  • Multisystem Neurorehabilitation in Rodents with Spinal Cord Injury
  • Grégoire Courtine , Rubia van den Brand , Roland R. Roy , and V. Reggie Edgerton
  • 5.
  • Sensory-Motor Interactions and Error Augmentation
  • Preface to the Second Edition
  • James L. Patton and Felix C. Huang
  • 6.
  • Normal and Impaired Cooperative Hand Movements: Role of Neural Coupling
  • Miriam Schrafl -Altermatt and Volker Dietz
  • 7.
  • Clinical Assessment and Rehabilitation of the Upper Limb Following Cervical Spinal Cord Injury
  • Michelle Louise Starkey and Armin Curt
  • Introduction: Rationale for Machine Use
  • PART I.
  • BASIC FRAMEWORK: MOTOR RECOVERY, LEARNING, AND NEURAL IMPAIRMENT
  • 1.
  • Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
  • Andreas Luft , Amy J. Bastian , and Volker Dietz
  • 2.
  • 10.
  • Robotic and Wearable Sensor Technologies for Measurements/Clinical Assessments
  • Olivier Lambercy , Serena Maggioni , Lars Lünenburger , Roger Gassert , and Marc Bolliger
  • 11.
  • Clinical Aspects for the Application of Robotics in Locomotor Neurorehabilitation
  • Volker Dietz
  • 12.
  • Clinical Application of Robotics and Technology in the Restoration of Walking
  • Alberto Esquenazi , Irin C. Maier , Tabea Aurich Schuler , Serafi n M. Beer , Ingo Borggraefe , Katrin Campen , Andreas R. Luft , Dimitrios Manoglou , Andreas Meyer-Heim , Martina R. Spiess , and Markus Wirz
  • 13.
  • PART II.
  • Standards and Safety Aspects for Medical Devices in the Field of Neurorehabilitation
  • Burkhard Zimmermann
  • 14.
  • Clinical Application of Rehabilitation Technologies in Children Undergoing Neurorehabilitation
  • Hubertus J. A. van Hedel and Tabea Aurich (-Schuler)
  • HUMAN-MACHINE INTERACTION IN REHABILITATION PRACTICE
  • 8.
  • Application Issues for Robotics
  • Markus Wirz and Rüdiger Rupp
  • 9.
  • The Human in the Loop
  • Alexander C. Koenig and Robert Riener
  • Three-Dimensional Multi-degree- of-Freedom Arm Therapy Robot (ARMin)
  • Tobias Nef , Verena Klamroth-Marganska , Urs Keller , and Robert Riener
  • 18.
  • Implementation of Impairment- Based Neurorehabilitation Devices and Technologies Following Brain Injury
  • Jules P. A. Dewald , Michael D. Ellis , Ana Maria Acosta , Jacob G. McPherson , and Arno H. A. Stienen
  • PART III.
  • ROBOTS FOR UPPER EXTREMITY RECOVERY
  • 15.
  • Restoration of Hand Function in Stroke and Spinal Cord Injury
  • Derek G. Kamper
  • 16 Forging Mens et Manus: The MIT Experience in Upper Extremity Robotic Therapy
  • Hermano Igo Krebs , Dylan Edwards , and Neville Hogan
  • 17.
  • 21.
  • Toward Flexible Assistance for Locomotor Training: Design and Clinical Testing of a Cable- Driven Robot for Stroke, Spinal Cord Injury, and Cerebral Palsy
  • Ming Wu and Jill M. Landry
  • 22.
  • Robot-Aided Gait Training with LOPES
  • Edwin H. F. van Asseldonk and Herman van der Kooij
  • 23.
  • Robotic Devices for Overground Gait and Balance Training
  • Joseph M. Hidler , Arno H. A. Stienen , and Heike Vallery
  • 24.
  • PART IV.
  • Using Robotic Exoskeletons for Over-Ground Locomotor Training
  • Arun Jayaraman , Sheila Burt , and William Zev Rymer
  • 25.
  • Functional Electrical Stimulation Therapy: Recovery of Function Following Spinal Cord Injury and Stroke
  • Milos R. Popovic , Kei Masani , and Silvestro Micera
  • 26.
  • Passive Devices for Upper Limb Training
  • Arthur Prochazka
  • 27.
  • Upper-Extremity Therapy with Spring Orthoses
  • ROBOTICS FOR LOCOMOTION RECOVERY
  • David J. Reinkensmeyer and Daniel K. Zondervan
  • 28.
  • Virtual Reality for Sensorimotor Rehabilitation Post Stroke: Design Principles and Evidence
  • Sergi Bermúdez i Badia , Gerard G. Fluet , Roberto Llorens , and Judith E. Deutsch
  • 29.
  • Wearable Wireless Sensors for Rehabilitation
  • Andrew K. Dorsch , Christine E. King , and Bruce H. Dobkin
  • 30.
  • BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation
  • Colin M. McCrimmon , Po T. Wang , Zoran Nenadic , and An H. Do
  • 19.
  • Epilogue: What Lies Ahead?
  • Technology of the Robotic Gait Orthosis Lokomat
  • Robert Riener
  • 20.
  • Beyond Human or Robot Administered Treadmill Training
  • Hermano Igo Krebs , Konstantinos Michmizos , Tyler Susko , Hyunglae Lee , Anindo Roy , and Neville Hogan
Control code
ocn956319298
Dimensions
unknown
Edition
Second edition
Extent
1 online resource (xxii, 647 pages)
File format
unknown
Form of item
online
Isbn
9783319286037
Level of compression
unknown
Other physical details
illustrations (some color)
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
(OCoLC)956319298
Label
Neurorehabilitation technology, David J. Reinkensmeyer, Volker Dietz, editors
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references and index
Color
multicolored
Contents
  • Movement Neuroscience Foundations of Neurorehabilitation
  • Robert L. Sainburg and Pratik K. Mutha
  • 3.
  • Designing Robots That Challenge to Optimize Motor Learning
  • David A. Brown , Timothy D. Lee , David J. Reinkensmeyer , and Jaime E. Duarte
  • 4.
  • Multisystem Neurorehabilitation in Rodents with Spinal Cord Injury
  • Grégoire Courtine , Rubia van den Brand , Roland R. Roy , and V. Reggie Edgerton
  • 5.
  • Sensory-Motor Interactions and Error Augmentation
  • Preface to the Second Edition
  • James L. Patton and Felix C. Huang
  • 6.
  • Normal and Impaired Cooperative Hand Movements: Role of Neural Coupling
  • Miriam Schrafl -Altermatt and Volker Dietz
  • 7.
  • Clinical Assessment and Rehabilitation of the Upper Limb Following Cervical Spinal Cord Injury
  • Michelle Louise Starkey and Armin Curt
  • Introduction: Rationale for Machine Use
  • PART I.
  • BASIC FRAMEWORK: MOTOR RECOVERY, LEARNING, AND NEURAL IMPAIRMENT
  • 1.
  • Learning in the Damaged Brain/Spinal Cord: Neuroplasticity
  • Andreas Luft , Amy J. Bastian , and Volker Dietz
  • 2.
  • 10.
  • Robotic and Wearable Sensor Technologies for Measurements/Clinical Assessments
  • Olivier Lambercy , Serena Maggioni , Lars Lünenburger , Roger Gassert , and Marc Bolliger
  • 11.
  • Clinical Aspects for the Application of Robotics in Locomotor Neurorehabilitation
  • Volker Dietz
  • 12.
  • Clinical Application of Robotics and Technology in the Restoration of Walking
  • Alberto Esquenazi , Irin C. Maier , Tabea Aurich Schuler , Serafi n M. Beer , Ingo Borggraefe , Katrin Campen , Andreas R. Luft , Dimitrios Manoglou , Andreas Meyer-Heim , Martina R. Spiess , and Markus Wirz
  • 13.
  • PART II.
  • Standards and Safety Aspects for Medical Devices in the Field of Neurorehabilitation
  • Burkhard Zimmermann
  • 14.
  • Clinical Application of Rehabilitation Technologies in Children Undergoing Neurorehabilitation
  • Hubertus J. A. van Hedel and Tabea Aurich (-Schuler)
  • HUMAN-MACHINE INTERACTION IN REHABILITATION PRACTICE
  • 8.
  • Application Issues for Robotics
  • Markus Wirz and Rüdiger Rupp
  • 9.
  • The Human in the Loop
  • Alexander C. Koenig and Robert Riener
  • Three-Dimensional Multi-degree- of-Freedom Arm Therapy Robot (ARMin)
  • Tobias Nef , Verena Klamroth-Marganska , Urs Keller , and Robert Riener
  • 18.
  • Implementation of Impairment- Based Neurorehabilitation Devices and Technologies Following Brain Injury
  • Jules P. A. Dewald , Michael D. Ellis , Ana Maria Acosta , Jacob G. McPherson , and Arno H. A. Stienen
  • PART III.
  • ROBOTS FOR UPPER EXTREMITY RECOVERY
  • 15.
  • Restoration of Hand Function in Stroke and Spinal Cord Injury
  • Derek G. Kamper
  • 16 Forging Mens et Manus: The MIT Experience in Upper Extremity Robotic Therapy
  • Hermano Igo Krebs , Dylan Edwards , and Neville Hogan
  • 17.
  • 21.
  • Toward Flexible Assistance for Locomotor Training: Design and Clinical Testing of a Cable- Driven Robot for Stroke, Spinal Cord Injury, and Cerebral Palsy
  • Ming Wu and Jill M. Landry
  • 22.
  • Robot-Aided Gait Training with LOPES
  • Edwin H. F. van Asseldonk and Herman van der Kooij
  • 23.
  • Robotic Devices for Overground Gait and Balance Training
  • Joseph M. Hidler , Arno H. A. Stienen , and Heike Vallery
  • 24.
  • PART IV.
  • Using Robotic Exoskeletons for Over-Ground Locomotor Training
  • Arun Jayaraman , Sheila Burt , and William Zev Rymer
  • 25.
  • Functional Electrical Stimulation Therapy: Recovery of Function Following Spinal Cord Injury and Stroke
  • Milos R. Popovic , Kei Masani , and Silvestro Micera
  • 26.
  • Passive Devices for Upper Limb Training
  • Arthur Prochazka
  • 27.
  • Upper-Extremity Therapy with Spring Orthoses
  • ROBOTICS FOR LOCOMOTION RECOVERY
  • David J. Reinkensmeyer and Daniel K. Zondervan
  • 28.
  • Virtual Reality for Sensorimotor Rehabilitation Post Stroke: Design Principles and Evidence
  • Sergi Bermúdez i Badia , Gerard G. Fluet , Roberto Llorens , and Judith E. Deutsch
  • 29.
  • Wearable Wireless Sensors for Rehabilitation
  • Andrew K. Dorsch , Christine E. King , and Bruce H. Dobkin
  • 30.
  • BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation
  • Colin M. McCrimmon , Po T. Wang , Zoran Nenadic , and An H. Do
  • 19.
  • Epilogue: What Lies Ahead?
  • Technology of the Robotic Gait Orthosis Lokomat
  • Robert Riener
  • 20.
  • Beyond Human or Robot Administered Treadmill Training
  • Hermano Igo Krebs , Konstantinos Michmizos , Tyler Susko , Hyunglae Lee , Anindo Roy , and Neville Hogan
Control code
ocn956319298
Dimensions
unknown
Edition
Second edition
Extent
1 online resource (xxii, 647 pages)
File format
unknown
Form of item
online
Isbn
9783319286037
Level of compression
unknown
Other physical details
illustrations (some color)
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
(OCoLC)956319298

Library Locations

    • InternetBorrow it
      Albany, Auckland, 0632, NZ
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