Sensorimotor rehabilitation: at the crossroads of basic and clinical sciences
Gespeichert in:
| Weitere Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Amsterdam [u.a.]
Elsevier
2015
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| Ausgabe: | 1. ed. |
| Schriftenreihe: | Progress in brain research
218 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XX, 449 S. Ill., graph. Darst. |
| ISBN: | 9780444635655 |
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Datensatz im Suchindex
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| adam_text | Titel: Sensorimotor rehabilitation
Autor: Dancause, Numa
Jahr: 2015
Contents
Contributors...............................................................................................................v
Preface....................................................................................................................xix
CHAPTER 1 Comprehensive Assessment of Walking Function
after Human Spinal Cord Injury............................................1
Lea Awai, Armin Curt
1. Introduction.....................................................................................1
2. Clinical Assessments of Recovery.................................................3
3. Clinical Neurophysiology...............................................................5
4. Gait Analysis...................................................................................6
5. Neural Control of Walking.............................................................7
6. Conclusion.....................................................................................10
Acknowledgments........................................................................10
References.....................................................................................10
CHAPTER 2 Translating Mechanisms of Neuroprotection,
Regeneration, and Repair to Treatment of
Spinal Cord Injury...................................................................15
Ahad M. Siddiqui, Mohamad Khazaei, Michael
G. Fehlings
1. Introduction...................................................................................16
2. Clinical Intervention.....................................................................21
3. Rehabilitation................................................................................23
4. Neuroprotective Strategies............................................................23
5. Cell-Based Therapies....................................................................27
6. Targeting Neuroregeneration........................................................32
7. Promoting Plasticity and Regeneration Through
Rehabilitation................................................................................34
8. Combinatorial Therapy as the Approach in the
Future............................................................................................35
9. Conclusion.....................................................................................36
References.....................................................................................37
xi
Contents
CHAPTER 3 High-Resolution Imaging of the Central Nervous
System: How Novel Imaging Methods Combined
with Navigation Strategies will Advance
Patient Care..............................................................................55
Hamza Farooq, Helen Genis, Joseph Alarcon,
Barry Vuong, Jamil Jivraj, Victor X.D. Yang, Julien
Cohen-Adad, Michael G. Fehlings, David W. Cadotte
Highlights......................................................................................56
1. Introduction...................................................................................56
2. Advances in High-Resolution Imaging of the Human
Brain and Spinal Cord..................................................................56
3. Optical Coherence Tomography...................................................58
4. Fluorescence-Guided Surgery.......................................................59
5. CARS Microscopy........................................................................60
6. Advances in Imaging Atlases.......................................................62
7. Histological/Stain Atlases.............................................................62
8. High -Resolution MRI-Based Atlases...........................................63
9. RNA and Subcellular Imaging Atlases........................................65
10. Future of Imaging Atlases............................................................66
11. Clinical Applications....................................................................67
12. Neuronavigation............................................................................70
13. Conclusion.....................................................................................71
References.....................................................................................73
CHAPTER 4 Assessment of Transmission in Specific
Descending Pathways in Relation to Gait
and Balance Following Spinal Cord Injury.....................79
Dorothy Barthelemy, Maria Willerslev-Olsen, Henrik Lundell,
Fin Biering-Sprensen, Jens Bo Nielsen
1. Introduction...................................................................................80
2. Methods.........................................................................................81
3. Results...........................................................................................88
4. Discussion.....................................................................................95
5. Conclusion.....................................................................................98
Acknowledgments........................................................................98
References.....................................................................................98
Contents xiii
CHAPTER 5 Exciting Recovery: Augmenting Practice with
Stimulation to Optimize Outcomes after Spinal
Cord Injury...............................................................................103
Edelle C. Field-Fote
1. Priming the Nervous System to Improve Responsiveness
to Training...................................................................................104
2. Hand/arm Impairment After SCI................................................106
3. Limitations in Walking Function After SCI..............................114
4. Conclusions.................................................................................120
References...................................................................................121
CHAPTER 6 Facilitation of Descending Excitatory and
Spinal Inhibitory Networks from Training of
Endurance and Precision Walking in Participants
with Incomplete Spinal Cord Injury................................127
Ephrem T. Zewdie, Francois D. Roy, Jaynie F. Yang,
Monica A. Gorassini
1. Introduction.................................................................................128
2. Methods.......................................................................................129
3. Results.........................................................................................137
4. Discussion...................................................................................148
Acknowledgments......................................................................152
References...................................................................................152
CHAPTER 7 Targeted Neuroplasticity for Rehabilitation................157
Aiko K. Thompson, Jonathan R. Wolpaw
1. Targeted Neuroplasticity Induced Through Operant
Conditioning................................................................................158
2. Plasticity Associated with Reflex Conditioning........................158
3. Essentials of Operant Conditioning of EMG Responses
Produced by Specific CNS Pathways in Humans......................161
4. Functional Impact of Conditioning: Negotiation of
Plasticity......................................................................................166
Acknowledgments......................................................................169
References...................................................................................169
xiv Contents
CHAPTER 8 The Beneficial Effects of Locomotor Training
after Various Types of Spinal Lesions in Cats
and Rats....................................................................................173
Serge Rossignol, Marina Martinez, Manuel Escalona,
Aritra Kundu, Hugo Delivet-Mongrain, Olivier Alluin,
Jean-Pierre Gossard
1. Locomotor Training After a Complete Spinal Section..............174
2. Incomplete SCI...........................................................................177
3. Training of Skilled Locomotion in Cats....................................181
4. Locomotor Training and Changes in Reflexes..........................184
5. Locomotor Training in Rodents (Robotic and Manual
Training)......................................................................................187
6. Concluding Remarks...................................................................190
Acknowledgments......................................................................191
References...................................................................................192
CHAPTER 9 Electrophysiological Mapping of Rat
Sensorimotor Lumbosacral Spinal Networks
after Complete Paralysis....................................................199
Parag Gad, Roland R. Roy, Jaehoon Choe, Hui Zhong,
Mandheeraj Singh Nandra, Yu-Chong Tai, Yury Gerasimenko,
V. Reggie Edgerton
1. Introduction.................................................................................200
2. Methods.......................................................................................201
3. Implant Fabrication.....................................................................201
4. Control Box and Multiplexer Circuit Board Description..........202
5. Head Connector and Intramuscular EMG Electrode
Implantation................................................................................202
6. Spinal Cord Transection and Array Implantation......................203
7. Stimulation and Testing Procedures...........................................203
8. Data Collection and Analysis.....................................................205
9. Results.........................................................................................205
10. Discussion...................................................................................207
11. Incongruity of Clinical and Physiological Assessments
of Completeness of Paralysis: Need for the Ability to
Record Evoked Potentials from the Spinal Cord.......................208
12. Comparison Between Traditional Wired Electrodes and
Multielectrode Arrays.................................................................209
Contents
13. Neurophysiological Mechanisms and Specific
Sensorimotor Integration Impacting Motor Function via the
Electrode Array After SCI..........................................................209
Acknowledgments......................................................................210
Conflict of Interest......................................................................210
References...................................................................................211
CHAPTER 10 The Extracellular Matrix in Plasticity and
Regeneration after CNS Injury and
Neurodegenerative Disease..............................................213
James W. Fawcett
1. Promoting CNS Plasticity and Rehabilitation............................214
2. Plasticity, Memory, and Alzheimer s Disease...........................216
3. How Do Chondroitin Sulfate Proteoglycans
Control Plasticity?.......................................................................219
4. Future Directions........................................................................222
Acknowledgments......................................................................222
Conflict of Interest......................................................................222
References...................................................................................222
CHAPTER 11 Bench to Bedside: Challenges of Clinical
Translation...............................................................................227
John D. Sleeves
1. Translational Challenges at the Preclinical Development
Phase...........................................................................................228
2. Translational Requirements During Clinical Trial Phases........230
3. Unique Challenges for SCI Clinical Studies..............................232
4. Summary.....................................................................................237
References...................................................................................238
CHAPTER 12 Restoring Motor Function with Bidirectional
Neural Interfaces..................................................................24i
Eberhard E. Fetz
1. Introduction.................................................................................241
2. Bridging Lost Connections.........................................................242
3. Strengthening Weak Synaptic Connections...............................245
4. Activity-Dependent Intracranial DBS........................................247
5. Concluding Comments...............................................................249
References...................................................................................250
Contents
CHAPTER 13 Stroke Rehabilitation: Clinical Picture,
Assessment, and Therapeutic Challenge.....................253
Carol L. Richards, Francine Malouin, Sylvie Nadeau
1. Statistics on Stroke and on Its Consequences............................254
2. Reintegration into the Community Poststroke...........................254
3. Recovery After Stroke................................................................256
4. Stroke Rehabilitation..................................................................261
5. Conclusions.................................................................................271
Acknowledgments......................................................................272
References...................................................................................272
CHAPTER 14 Repetitive Transcranial Magnetic Stimulation
for Motor Recovery of the Upper Limb after
Stroke........................................................................................281
Jitka Liidemann-Podubecka, Kathrin Bosl, Dennis
Alexander Nowak
1. Introduction.................................................................................282
2. Neural Correlates of Motor Recovery After Stroke...................282
3. Modulation of Cortical Excitability by rTMS...........................284
4. rTMS for Motor Recovery After Stroke....................................285
5. Methods.......................................................................................286
6. Results.........................................................................................286
7. rTMS over the Contralesional Hemisphere in Promoting
Motor Recovery of the Affected Hand After Stroke.................286
8. rTMS over the Ipsilesional Hemisphere in Promoting
Motor Recovery of the Affected Hand After Stroke.................300
9. Bilateral Stimulation in Promoting Motor Recovery of
the Affected Hand after Stroke...................................................302
10. Comparing Different rTMS Protocols........................................303
11. Discussion...................................................................................305
12. Stimulation Parameter-Dependent Efficiency............................306
13. Conclusion...................................................................................307
References...................................................................................307
CHAPTER 15 Cortical Mechanisms Underlying Sensorimotor
Enhancement Promoted by Walking with Haptic
Inputs in a Virtual Environment.......................................313
Samir Sangani, Anouk Lamontagne, Joyce Fung
1. Introduction.................................................................................314
2. Light Haptic Touch and Sensorimotor Enhancement
of Locomotion.............................................................................314
3. Advances in Virtual Reality Technology...................................317
4. Sensorimotor Enhancement Revealed by Cortical Mapping.....318
5. Future Directions........................................................................326
Acknowledgments......................................................................326
References...................................................................................326
CHAPTER 16 Translating the Science into Practice: Shaping
Rehabilitation Practice to Enhance Recovery
after Brain Damage...............................................................331
Carolee J. Winstein, Dorsa Beroukhim Kay
t. Introduction.................................................................................332
2. Neuroplasticity Elevates the Importance of Motor
Learning......................................................................................332
3. From Neuroplasticity to an Integrated Framework for
Translation What Are the Active Ingredients?..........................333
4. Active Ingredient #1: Be Challenging........................................334
5. Active Ingredient #2: Be Progressive and Optimally
Adapted.......................................................................................337
6. Active Ingredient # 3: Solicit Motivation and Active
Participation................................................................................339
7. Examples of Promising New Therapies.....................................342
8. Opportunities and Challenges for Future Translational
Research......................................................................................351
References...................................................................................351
CHAPTER 17 Inhibition of the Contralesional Hemisphere
after Stroke: Reviewing a Few of the Building
Blocks with a Focus on Animal Models........................36i
Numa Dancause, Boris Touvykine, Babak K. Mansoori
1. General Introduction...................................................................362
2. Popular Models of Stroke...........................................................362
3. Interhemispheric Connections....................................................366
4. Ipsilateral Corticospinal Projections...........................................370
5. Interhemispheric Interactions in Healthy Adults.......................371
6. Changes of Contralesional Hemisphere Excitability
After Stroke.................................................................................372
7. Contralesional Inhibition After Stroke.......................................373
8. Can Onset Time and Duration Affect Contralesional
Inhibition Efficacy?....................................................................374
9. Contralesional Inhibition Onset Time and Duration in a
Rat Model of Cortical Stroke.....................................................375
xviii
Contents
10. Contralesional Inhibition May Not Always Be Advisable........377
11. General Conclusions...................................................................378
Acknowledgments......................................................................379
References...................................................................................379
CHAPTER 18 Pathways Mediating Functional Recovery...................389
Stuart N. Baker, Boubker Zaaimi, Karen M. Fisher,
Steve A. Edgley, Demetris S. Soteropoulos
1. Cortical Activation......................................................................390
2. The Corticospinal Tract: Contralateral Effects..........................390
3. The Corticospinal Tract: Ipsilateral Effects...............................392
4. The Reticulospinal Tract............................................................394
5. Spinal Systems for Control of the Hand....................................399
6. Different Types of Hand Function.............................................400
7. Ipsilateral Motor Output.............................................................403
8. Differences Between Rodent and Primate Models....................405
9. Conclusions.................................................................................405
References...................................................................................406
CHAPTER 19 Lost in Translation: Rethinking Approaches
to Stroke Recovery...............................................................413
Dale Corbett, Matthew letters, Carine Nguemeni,
Mariana Gomez-Smith, Jessica Livingston-Thomas
1. The Problem of Stroke................................................................413
2. Stroke Prevention and Acute Stroke Treatment.........................414
3. The Use of Animal Models to Assess Stroke Recovery............415
4. The Potential of Neuroplasticity to Enhance Stroke
Recovery.....................................................................................417
5. Exogenous and Endogenous Stem Cell Approaches
to Enhance Stroke Recovery......................................................421
6. Stroke Recovery: What About Cognition?................................422
7. Future Directions: A Holistic Approach to Stroke
Recovery.....................................................................................424
Acknowledgments......................................................................425
References...................................................................................426
Index.......................................................................................................................435
Other volumes in PROGRESS IN BRAIN RESEARCH..............................................447
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| spelling | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences ed. by Numa Dancause ... 1. ed. Amsterdam [u.a.] Elsevier 2015 XX, 449 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Progress in brain research 218 Sensory integration dysfunction / Patients / Rehabilitation Sensorimotor integration Dancause, Numa 1974- (DE-588)1071091506 edt Progress in brain research 218 (DE-604)BV008000363 218 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027998711&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences Progress in brain research Sensory integration dysfunction / Patients / Rehabilitation Sensorimotor integration |
| title | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences |
| title_auth | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences |
| title_exact_search | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences |
| title_full | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences ed. by Numa Dancause ... |
| title_fullStr | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences ed. by Numa Dancause ... |
| title_full_unstemmed | Sensorimotor rehabilitation at the crossroads of basic and clinical sciences ed. by Numa Dancause ... |
| title_short | Sensorimotor rehabilitation |
| title_sort | sensorimotor rehabilitation at the crossroads of basic and clinical sciences |
| title_sub | at the crossroads of basic and clinical sciences |
| topic | Sensory integration dysfunction / Patients / Rehabilitation Sensorimotor integration |
| topic_facet | Sensory integration dysfunction / Patients / Rehabilitation Sensorimotor integration |
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