Neurorehabilitation technology:
Gespeichert in:
| Weitere Verfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Cham
Springer
[2023]
|
| Ausgabe: | Third edition, corrected publication |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Klappentext |
| Beschreibung: | x, 785 Seiten Illustrationen, Diagramme |
| ISBN: | 9783031089978 |
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Datensatz im Suchindex
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Contents Part I 1 2 Basic Framework: Motor Recovery, Learning, and Neural Impairment Learning in the Damaged Brain/Spinal Cord: Neuroplasticity. Andreas Luft, Amy J. Bastian, and Volker Dietz Movement Neuroscience Foundations of Neurorehabilitation. 3 19 Robert L. Sainburg and Pratik K. Mutha 3 Recovery of Sensorimotor Functions After Stroke and SCI: Neurophysiological Basis of Rehabilitation Technology. 41 Volker Dietz, Laura Marchal-Crespo, and David Reinkensmeyer Part II From Movement Physiology to Technology Application 4 Use of Technology in the Assessment and Rehabilitation of the Upper Limb After Cervical Spinal Cord Injury. José Zariffa, Michelle Starkey, Armin Curt, and Sukhvinder Kalsi-Ryan 57 5 Implementation of Impairment-Based Neurorehabilitation Devices and Technologies Following Brain Injury. 89 Julius P. A, Dewald, Michael D. Ellis, Ana Maria Acosta, Μ. Hongchul Sohn, and Thomas A. Μ. Plaisier 6 The Hand After Stroke and SCI: Restoration of Function with Technology. 113 Mohammad Ghassemi and Derek G. Kamper 7 Neural Coordination of Cooperative Hand Movements: Implications for Rehabilitation Technology. Volker Dietz and Miriam Schrafl-Altermatt 135 vii
Contents viii Robotic Gait Training in Specific Neurological Conditions: Rationale and Application. 145 Markus Wirz, Jens Bansi, Marianne Capecci, Alberto Esquenazi, Liliana Paredes, Candy Tefertiller, and Hubertus J. A. van Hedel 8 Part III 9 Principles for Interactive Rehabilitation Technology Designing User-Centered Technologies for Rehabilitation Challenge that Optimize Walking and Balance Performance. 191 David A. Brown, Kelli L. LaCroix, Saleh Μ. Alhirsan, Carmen E. Capo-Lugo, Rebecca W. Hennessy, and Christopher P. Hurt 10 Psychophysiological Integration of Humans and Machines for Rehabilitation. Vesna D. Novak, Alexander C. Koenig, and Robert Riener 207 Sensory-Motor Interactions and the Manipulation of Movement Error. Pritesh N. Parmar, Felix C. Huang, and James L. Patton 223 The Role of Haptic Interactions with Robots for Promoting Motor Learning. Niek Beckers and Laura Marchal-Crespo 247 11 12 13 Implementation of Robots into Rehabilitation Programs: Meeting the Requirements and Expectations of Professional and End Users 263 Rüdiger Rupp and Markus Wirz 14 Clinical Application of Rehabilitation Therapy Technologies to Children with CNS Damage. Hubertus J. A. van Hedel, Tabea Aurich Schuler, and Jan Lieber Part IV 289 Assessment Technology and Predictive Modeling
15 Robotic Technologies and Digital Health Metrics for Assessing Sensorimotor Disability. 321 Christoph Μ. Kanzler, Marc Bolliger, and Olivier Lambercy 16 Computational Neurorehabilitation. Nicolas Schweighofer 17 Precision Rehabilitation: Can Neurorehabilitation Technology Help Make It a Realistic Target?. W. Zev Rymer and D. J. Reinkensmeyer 357 345
ix Contents Part V 18 19 20 General Technological Approaches in Neurorehabilitation Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury. Ismael Seânez, Marco Capogrosso, Karen Minassian, and Fabien B. Wagner Functional Electrical Stimulation Therapy: Mechanisms for Recovery of Function Following Spinal Cord Injury and Stroke. Milos R. Popovic, Kei Masani, and Matija Milosevic 369 401 Basis and Clinical Evidence of Virtual Reality-Based Rehabilitation of Sensorimotor Impairments After Stroke. Gerard G. Fluet, Devraj Roy, Roberto Llorens, Sergi Bermùdez i Badia, and Judith E. Deutsch 21 Wearable Sensors for Stroke Rehabilitation. Catherine P. Adans-Dester, Catherine E. Lang, David J. Reinkensmeyer, and Paolo Bonato 22 BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation. Jeffrey Lira, Derrick Lin, Won Joon Sohn, Colin Μ. McCrimmon, Po T. Wang, Zoran Nenadic, and An H. Do 429 467 509 23 Passive Devices for Upper Limb Training. Marika Demers, Justin Rowe, and Arthur Prochazka 525 24 Mobile Technology for Cognitive Rehabilitation. Amanda R. Rabinowitz, Shannon B. Juengst, and Thomas F. Bergquist 549 25 Telerehabilitation Technology. Verena Klamroth-
Marganska, Sandra Giovanoli, Chris Awai Easthope, and Josef G. Schönhammer 563 Part VI 26 27 Robotic Technologies for Neurorehabilitation: Upper Extremity Forging Mens et Manus: The MIT Experience in Upper Extremity Robotic Therapy. Hermano Igo Krebs, Dylan J. Edwards, and Bruce T. Volpe Three-Dimensional Multi-Degree-of-Freedom Arm Therapy Robot (ARMin). Tobias Nef, Verena Klamroth-Marganska, Urs Keller, and Robert Riener 623 597
Layout: T4 Color Book ID: 270352_3_En Book ISBN: 978-3-031-08994-7 Chapter No.: FM 1 Date: 12-5-2023 Page: 10/10 Time: 12:28 pm Contents X 28 Upper-Extremity Movement Training with Mechanically Assistive Devices. 649 David J. Reinkensmeyer, Daniel K. Zondervan, and Marti Cornelias Andrés Part VII Robotic Technologies for Neurorehabilitation: Gait and Balance 29 Technology of the Robotic Gait Orthosis Lokomat. Laura Marchal-Crespo and Robert Riener 30 Using Robotic Exoskeletons for Overground Locomotor Training. 665 683 Arun Jayaraman, William Z. Rymer, Matt Giffhorn, and Megan K. O’Brien 31 Beyond Human or Robot Administered Treadmill Training. 701 Hermano Igo Krebs, Conor J. Walsh, Tyler Susko, Lou Awad, Konstantinos Michmizos, Arturo Forner-Cordero, and Eiichi Saitoh 32 A Flexible Cable-Driven Robotic System: Design and Its Clinical Application for Improving Walking Function in Adults with Stroke, SCI, and Children with CP. Ming Wu 33 Body Weight Support Devices for Overground Gait and Balance Training. 717 745 Andrew Pennycott and Heike Vallery 34 Epilogue: Robots for Neurorehabilitation—The Debate. John W. Krakauer and David J. Reinkensmeyer Correction to: Spinal Cord Stimulation to Enable Leg
Motor Control and Walking in People with Spinal Cord Injury. Ismael Seaftez, Marco Capogrosso, Karen Minassian, and Fabien B. Wagner 757 Cl Index. 765
David J. Reinkensmeyer ■ Laura Marchal-Crespo · Volker Dietz Editors Neurorehabilitation Technology Third Edition This revised, updated, and substantially expanded third edition provides an accessible, practical overview of major areas of research, technical development and clinical application in the field of neurorehabilitation movement therapy. The initial section provides the basic framework and a rationale for technology application in movement therapy by summarizing recent findings in neuroplasticity and motor learning. The following section provides a detailed overview of the movement physiology of various neurologic conditions, illustrating how this knowledge has been used to design various neurorehabilitation technologies. The third section then explains the principles of human-machine interaction for movement rehabilitation. The fourth section provides an overview of assessment technology and predictive modeling in neurorehabilitation. The fifth section provides a survey of technological approaches to neurorehabilitation, including spinal cord stimulation, functional electrical stimulation, virtual reality, wearable sensing, brain computer interfaces, mobile technologies, and telerehabilitation. The final two sections examine in greater detail the ongoing revolution in robotic therapy for upper extremity movement and walking, respectively. The promises and limitations of these technologies in neurorehabilitation are discussed, including an Epilogue which debates the impact and utility of robotics for neurorehabilitation. 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 and future developments in the field. The text is illustrated throughout with photographs and schematic diagrams which serve to clarify the information for the reader. Neurorehabilitation Technology, Third Edition is a valuable resource for neurologists, biomedical engineers, roboticists, rehabilitation specialists, physiotherapists, occupational therapists and those training in these fields. Chapter “Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. |
| adam_txt |
Contents Part I 1 2 Basic Framework: Motor Recovery, Learning, and Neural Impairment Learning in the Damaged Brain/Spinal Cord: Neuroplasticity. Andreas Luft, Amy J. Bastian, and Volker Dietz Movement Neuroscience Foundations of Neurorehabilitation. 3 19 Robert L. Sainburg and Pratik K. Mutha 3 Recovery of Sensorimotor Functions After Stroke and SCI: Neurophysiological Basis of Rehabilitation Technology. 41 Volker Dietz, Laura Marchal-Crespo, and David Reinkensmeyer Part II From Movement Physiology to Technology Application 4 Use of Technology in the Assessment and Rehabilitation of the Upper Limb After Cervical Spinal Cord Injury. José Zariffa, Michelle Starkey, Armin Curt, and Sukhvinder Kalsi-Ryan 57 5 Implementation of Impairment-Based Neurorehabilitation Devices and Technologies Following Brain Injury. 89 Julius P. A, Dewald, Michael D. Ellis, Ana Maria Acosta, Μ. Hongchul Sohn, and Thomas A. Μ. Plaisier 6 The Hand After Stroke and SCI: Restoration of Function with Technology. 113 Mohammad Ghassemi and Derek G. Kamper 7 Neural Coordination of Cooperative Hand Movements: Implications for Rehabilitation Technology. Volker Dietz and Miriam Schrafl-Altermatt 135 vii
Contents viii Robotic Gait Training in Specific Neurological Conditions: Rationale and Application. 145 Markus Wirz, Jens Bansi, Marianne Capecci, Alberto Esquenazi, Liliana Paredes, Candy Tefertiller, and Hubertus J. A. van Hedel 8 Part III 9 Principles for Interactive Rehabilitation Technology Designing User-Centered Technologies for Rehabilitation Challenge that Optimize Walking and Balance Performance. 191 David A. Brown, Kelli L. LaCroix, Saleh Μ. Alhirsan, Carmen E. Capo-Lugo, Rebecca W. Hennessy, and Christopher P. Hurt 10 Psychophysiological Integration of Humans and Machines for Rehabilitation. Vesna D. Novak, Alexander C. Koenig, and Robert Riener 207 Sensory-Motor Interactions and the Manipulation of Movement Error. Pritesh N. Parmar, Felix C. Huang, and James L. Patton 223 The Role of Haptic Interactions with Robots for Promoting Motor Learning. Niek Beckers and Laura Marchal-Crespo 247 11 12 13 Implementation of Robots into Rehabilitation Programs: Meeting the Requirements and Expectations of Professional and End Users 263 Rüdiger Rupp and Markus Wirz 14 Clinical Application of Rehabilitation Therapy Technologies to Children with CNS Damage. Hubertus J. A. van Hedel, Tabea Aurich Schuler, and Jan Lieber Part IV 289 Assessment Technology and Predictive Modeling
15 Robotic Technologies and Digital Health Metrics for Assessing Sensorimotor Disability. 321 Christoph Μ. Kanzler, Marc Bolliger, and Olivier Lambercy 16 Computational Neurorehabilitation. Nicolas Schweighofer 17 Precision Rehabilitation: Can Neurorehabilitation Technology Help Make It a Realistic Target?. W. Zev Rymer and D. J. Reinkensmeyer 357 345
ix Contents Part V 18 19 20 General Technological Approaches in Neurorehabilitation Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury. Ismael Seânez, Marco Capogrosso, Karen Minassian, and Fabien B. Wagner Functional Electrical Stimulation Therapy: Mechanisms for Recovery of Function Following Spinal Cord Injury and Stroke. Milos R. Popovic, Kei Masani, and Matija Milosevic 369 401 Basis and Clinical Evidence of Virtual Reality-Based Rehabilitation of Sensorimotor Impairments After Stroke. Gerard G. Fluet, Devraj Roy, Roberto Llorens, Sergi Bermùdez i Badia, and Judith E. Deutsch 21 Wearable Sensors for Stroke Rehabilitation. Catherine P. Adans-Dester, Catherine E. Lang, David J. Reinkensmeyer, and Paolo Bonato 22 BCI-Based Neuroprostheses and Physiotherapies for Stroke Motor Rehabilitation. Jeffrey Lira, Derrick Lin, Won Joon Sohn, Colin Μ. McCrimmon, Po T. Wang, Zoran Nenadic, and An H. Do 429 467 509 23 Passive Devices for Upper Limb Training. Marika Demers, Justin Rowe, and Arthur Prochazka 525 24 Mobile Technology for Cognitive Rehabilitation. Amanda R. Rabinowitz, Shannon B. Juengst, and Thomas F. Bergquist 549 25 Telerehabilitation Technology. Verena Klamroth-
Marganska, Sandra Giovanoli, Chris Awai Easthope, and Josef G. Schönhammer 563 Part VI 26 27 Robotic Technologies for Neurorehabilitation: Upper Extremity Forging Mens et Manus: The MIT Experience in Upper Extremity Robotic Therapy. Hermano Igo Krebs, Dylan J. Edwards, and Bruce T. Volpe Three-Dimensional Multi-Degree-of-Freedom Arm Therapy Robot (ARMin). Tobias Nef, Verena Klamroth-Marganska, Urs Keller, and Robert Riener 623 597
Layout: T4 Color Book ID: 270352_3_En Book ISBN: 978-3-031-08994-7 Chapter No.: FM 1 Date: 12-5-2023 Page: 10/10 Time: 12:28 pm Contents X 28 Upper-Extremity Movement Training with Mechanically Assistive Devices. 649 David J. Reinkensmeyer, Daniel K. Zondervan, and Marti Cornelias Andrés Part VII Robotic Technologies for Neurorehabilitation: Gait and Balance 29 Technology of the Robotic Gait Orthosis Lokomat. Laura Marchal-Crespo and Robert Riener 30 Using Robotic Exoskeletons for Overground Locomotor Training. 665 683 Arun Jayaraman, William Z. Rymer, Matt Giffhorn, and Megan K. O’Brien 31 Beyond Human or Robot Administered Treadmill Training. 701 Hermano Igo Krebs, Conor J. Walsh, Tyler Susko, Lou Awad, Konstantinos Michmizos, Arturo Forner-Cordero, and Eiichi Saitoh 32 A Flexible Cable-Driven Robotic System: Design and Its Clinical Application for Improving Walking Function in Adults with Stroke, SCI, and Children with CP. Ming Wu 33 Body Weight Support Devices for Overground Gait and Balance Training. 717 745 Andrew Pennycott and Heike Vallery 34 Epilogue: Robots for Neurorehabilitation—The Debate. John W. Krakauer and David J. Reinkensmeyer Correction to: Spinal Cord Stimulation to Enable Leg
Motor Control and Walking in People with Spinal Cord Injury. Ismael Seaftez, Marco Capogrosso, Karen Minassian, and Fabien B. Wagner 757 Cl Index. 765
David J. Reinkensmeyer ■ Laura Marchal-Crespo · Volker Dietz Editors Neurorehabilitation Technology Third Edition This revised, updated, and substantially expanded third edition provides an accessible, practical overview of major areas of research, technical development and clinical application in the field of neurorehabilitation movement therapy. The initial section provides the basic framework and a rationale for technology application in movement therapy by summarizing recent findings in neuroplasticity and motor learning. The following section provides a detailed overview of the movement physiology of various neurologic conditions, illustrating how this knowledge has been used to design various neurorehabilitation technologies. The third section then explains the principles of human-machine interaction for movement rehabilitation. The fourth section provides an overview of assessment technology and predictive modeling in neurorehabilitation. The fifth section provides a survey of technological approaches to neurorehabilitation, including spinal cord stimulation, functional electrical stimulation, virtual reality, wearable sensing, brain computer interfaces, mobile technologies, and telerehabilitation. The final two sections examine in greater detail the ongoing revolution in robotic therapy for upper extremity movement and walking, respectively. The promises and limitations of these technologies in neurorehabilitation are discussed, including an Epilogue which debates the impact and utility of robotics for neurorehabilitation. 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 and future developments in the field. The text is illustrated throughout with photographs and schematic diagrams which serve to clarify the information for the reader. Neurorehabilitation Technology, Third Edition is a valuable resource for neurologists, biomedical engineers, roboticists, rehabilitation specialists, physiotherapists, occupational therapists and those training in these fields. Chapter “Spinal Cord Stimulation to Enable Leg Motor Control and Walking in People with Spinal Cord Injury” is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com. |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV049458607 |
| illustrated | Illustrated |
| index_date | 2024-07-03T23:14:19Z |
| indexdate | 2024-12-13T19:00:16Z |
| institution | BVB |
| isbn | 9783031089978 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-034804373 |
| oclc_num | 1416411427 |
| open_access_boolean | |
| owner | DE-384 |
| owner_facet | DE-384 |
| physical | x, 785 Seiten Illustrationen, Diagramme |
| publishDate | 2023 |
| publishDateSearch | 2023 |
| publishDateSort | 2023 |
| publisher | Springer |
| record_format | marc |
| spelling | Neurorehabilitation technology David J. Reinkensmeyer, Laura Marchal-Crespo, Volker Dietz, editors Third edition, corrected publication Cham Springer [2023] x, 785 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Medizintechnik, Verfahren, Systeme und Informationsverarbeitung (DE-588)1123820201 gnd rswk-swf Neurology Neurological Disorders Neurology Nervous system—Diseases Technologie (DE-588)4059276-5 gnd rswk-swf Rehabilitation (DE-588)4049078-6 gnd rswk-swf Nervenkrankheit (DE-588)1068493003 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Nervenkrankheit (DE-588)1068493003 s Rehabilitation (DE-588)4049078-6 s Medizintechnik, Verfahren, Systeme und Informationsverarbeitung (DE-588)1123820201 u DE-604 Technologie (DE-588)4059276-5 s Reinkensmeyer, David J. ca. 20./21. Jh. (DE-588)1314929046 edt Marchal-Crespo, Laura edt Dietz, Volker 1943- (DE-588)1089203012 edt Erscheint auch als Online-Ausgabe 978-3-031-08995-4 Digitalisierung UB Augsburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034804373&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Augsburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034804373&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext |
| spellingShingle | Neurorehabilitation technology Medizintechnik, Verfahren, Systeme und Informationsverarbeitung (DE-588)1123820201 gnd Neurology Neurological Disorders Neurology Nervous system—Diseases Technologie (DE-588)4059276-5 gnd Rehabilitation (DE-588)4049078-6 gnd Nervenkrankheit (DE-588)1068493003 gnd |
| subject_GND | (DE-588)1123820201 (DE-588)4059276-5 (DE-588)4049078-6 (DE-588)1068493003 (DE-588)4143413-4 |
| title | Neurorehabilitation technology |
| title_auth | Neurorehabilitation technology |
| title_exact_search | Neurorehabilitation technology |
| title_exact_search_txtP | Neurorehabilitation technology |
| title_full | Neurorehabilitation technology David J. Reinkensmeyer, Laura Marchal-Crespo, Volker Dietz, editors |
| title_fullStr | Neurorehabilitation technology David J. Reinkensmeyer, Laura Marchal-Crespo, Volker Dietz, editors |
| title_full_unstemmed | Neurorehabilitation technology David J. Reinkensmeyer, Laura Marchal-Crespo, Volker Dietz, editors |
| title_short | Neurorehabilitation technology |
| title_sort | neurorehabilitation technology |
| topic | Medizintechnik, Verfahren, Systeme und Informationsverarbeitung (DE-588)1123820201 gnd Neurology Neurological Disorders Neurology Nervous system—Diseases Technologie (DE-588)4059276-5 gnd Rehabilitation (DE-588)4049078-6 gnd Nervenkrankheit (DE-588)1068493003 gnd |
| topic_facet | Medizintechnik, Verfahren, Systeme und Informationsverarbeitung Neurology Neurological Disorders Neurology Nervous system—Diseases Technologie Rehabilitation Nervenkrankheit Aufsatzsammlung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034804373&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034804373&sequence=000003&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT reinkensmeyerdavidj neurorehabilitationtechnology AT marchalcrespolaura neurorehabilitationtechnology AT dietzvolker neurorehabilitationtechnology |