Motor Control Methods and Clinical Applications: Handbook of Clinical Neurology
Editat de Robert Chen, Ulf Ziemannen Limba Engleză Hardback – iul 2026
- Highlights the theoretical and technical aspects of advanced neurophysiological techniques
- Enables the reader to understand the utility and limitations of each non-invasive brain stimulation technique
- Explains clinical applications and neurophysiological techniques
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Specificații
ISBN-13: 9780443274428
ISBN-10: 0443274428
Pagini: 450
Dimensiuni: 216 x 276 mm
Editura: ELSEVIER SCIENCE
Seria Handbook of Clinical Neurology
ISBN-10: 0443274428
Pagini: 450
Dimensiuni: 216 x 276 mm
Editura: ELSEVIER SCIENCE
Seria Handbook of Clinical Neurology
Cuprins
Part 1 Methods
1. Transcranial magnetic stimulation: positive effects (includes single and paired pulse methods, and triple-stimulation-technique)
2. Transcranial magnetic stimulation: negative motor effects (contralateral and ipsilateral silent periods)
3. Modulation of TMS motor-evoked potentials by muscle contraction, motor imagery, action observation, action preparation
4. Effect of non-invasive brain stimulation on voluntary movements (such as effects on RT, ballistic movement, kinematic effects, with TMS, including TES if appropriate)
5. Induction of motor system plasticity using transcranial magnetic stimulation (e.g., regular rTMS, TBS, PAS, QPS, sTMS etc)
6. Induction of motor system plasticity using transcranial electrical stimulation (tDCS, tACS, random noise stimulation
7. Induction of motor system plasticity using transcranial ultrasound stimulation
8. Induction of motor system plasticity using temporal interference stimulation
9. Contributions of spinal epidural recordings to mechanisms of TMS and TES
10. Corticomuscular or EEG-EMG coherence, and intermuscular or EMG-EMG coherence
11. TMS-EEG – relation to motor physiology
12. ERD/ERS, BP (EEG/MEG), multichannel surface EMG, EMG-EEG backaveraging
13. Brain computer interfaces in the motor system: the technologies
14. Long-latency reflexes and cutaneous reflexes
15. Brainstem reflexes and startle reaction
16. Spinal reflexes (H-reflex, reciprocal inhibition)
Part 2: Clinical Applications:
17. Utility of TMS in the diagnosis of neurological disorders
18. Electrophysiological studies in the diagnosis of movement disorders (multiple channel surface EMG, EMG-EEG backaveraging, for tremor, muscle jerks/myoclonus)
19. Clinical use of TMS-EEG in the motor system
20. Clinical applications of ultrasound neuromodulation of the motor system
21. Clinical application of rTMS/tDCS as treatment in motor disorders (e.g. ALS, PD)
22. Clinical applications of Brain computer interfaces in the motor system
1. Transcranial magnetic stimulation: positive effects (includes single and paired pulse methods, and triple-stimulation-technique)
2. Transcranial magnetic stimulation: negative motor effects (contralateral and ipsilateral silent periods)
3. Modulation of TMS motor-evoked potentials by muscle contraction, motor imagery, action observation, action preparation
4. Effect of non-invasive brain stimulation on voluntary movements (such as effects on RT, ballistic movement, kinematic effects, with TMS, including TES if appropriate)
5. Induction of motor system plasticity using transcranial magnetic stimulation (e.g., regular rTMS, TBS, PAS, QPS, sTMS etc)
6. Induction of motor system plasticity using transcranial electrical stimulation (tDCS, tACS, random noise stimulation
7. Induction of motor system plasticity using transcranial ultrasound stimulation
8. Induction of motor system plasticity using temporal interference stimulation
9. Contributions of spinal epidural recordings to mechanisms of TMS and TES
10. Corticomuscular or EEG-EMG coherence, and intermuscular or EMG-EMG coherence
11. TMS-EEG – relation to motor physiology
12. ERD/ERS, BP (EEG/MEG), multichannel surface EMG, EMG-EEG backaveraging
13. Brain computer interfaces in the motor system: the technologies
14. Long-latency reflexes and cutaneous reflexes
15. Brainstem reflexes and startle reaction
16. Spinal reflexes (H-reflex, reciprocal inhibition)
Part 2: Clinical Applications:
17. Utility of TMS in the diagnosis of neurological disorders
18. Electrophysiological studies in the diagnosis of movement disorders (multiple channel surface EMG, EMG-EEG backaveraging, for tremor, muscle jerks/myoclonus)
19. Clinical use of TMS-EEG in the motor system
20. Clinical applications of ultrasound neuromodulation of the motor system
21. Clinical application of rTMS/tDCS as treatment in motor disorders (e.g. ALS, PD)
22. Clinical applications of Brain computer interfaces in the motor system