Volume 2 of the Textbook of Neural Repair and Rehabilitation stands alone as a clinical handbook for neurorehabilitation.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Part I. Terminology of Neurorehabilitation - Outcome Measurement and Diagnostic Technology: 1. Clinical trials in neurorehabilitation 2. Understanding the mechanisms underlying recovery after stroke 3. Genetics in neurorehabilitation 4. Outcomes measurement: basic principles and applications in stroke rehabilitation 5. Human voluntary motor control and dysfunction 6. Assessments, interventions, and outcome measures for walking 7. Clinical pathways 8. Electromyography in neurorehabilitation 9. Functional neuroimaging Part II. Therapeutic Technology: 10. Evolving insights into motor learning and their implications for neurorehabilitation 11. Balance training 12. Functional electrical stimulation in neurorehabilitation 13. Peripheral nerve stimulation 14. Brain stimulation 15. Assistive devices 16. Wheelchair design and seating technology 17. Rehabilitation robotics, orthotics, and prosthetics for the upper extremity 18. Rehabilitation robotics, orthotics, and prosthetics: lower limb 19. Virtual reality applications in neurorehabilitation 20. Communication devices 21. Requirements for valid clinical trials 22. Spinal cord injury: mechanisms, cellular and molecular therapies, and human translation 23. Motor neuroprosthetics Part III. Organization of Rehabilitation Services: 24. Neurohabilitative interventions in the acute stage of diseases 25. The rehabilitation team and the economics of neurological rehabilitation Part IV. Symptom-Specific Neurorehabilitation - Sensory and Motor Dysfunctions: 26. Chronic pain 27. Loss of somatic sensation 28. Management of deforming spastic paresis 29. Contemporary concepts in upper extremity rehabilitation 30. Gait disorders and rehabilitation 31. Balance function and dysfunction and the vestibular system 32. Deconditioning and energy expenditure Part V. Vegetative and Autonomic Dysfunctions: 33. Acute neurorehabilitation for disorders of consciousness 34. Plasticity in the neural pathways for swallowing: role in rehabilitation of dysphagia 35. Autonomic dysfunction Part VI. Cognitive Rehabilitation: 36. Rehabilitation for aphasia 37. Apraxia 38. Unilateral neglect and anosognosia 39. Memory dysfunction 40. Neurorehabilitation of executive functions 41. Rehabilitation of visual field impairment Part VII. Disease-Specific Neurorehabilitation Systems: 42. Rehabilitation of dementia 43. Traumatic brain injury 44. Neurorehabilitation in epilepsy 45. Parkinson's disease and other movement disorders 46. Predicting activities after stroke 47. Evidence-based benefit of rehabilitation after stroke 48. Rehabilitation in spinal cord injury 49. Multiple sclerosis 50. Neuromuscular rehabilitation: diseases of the motor neuron, peripheral nerve, neuromuscular junction and the muscle Index.
Part I. Terminology of Neurorehabilitation - Outcome Measurement and Diagnostic Technology: 1. Clinical trials in neurorehabilitation 2. Understanding the mechanisms underlying recovery after stroke 3. Genetics in neurorehabilitation 4. Outcomes measurement: basic principles and applications in stroke rehabilitation 5. Human voluntary motor control and dysfunction 6. Assessments, interventions, and outcome measures for walking 7. Clinical pathways 8. Electromyography in neurorehabilitation 9. Functional neuroimaging Part II. Therapeutic Technology: 10. Evolving insights into motor learning and their implications for neurorehabilitation 11. Balance training 12. Functional electrical stimulation in neurorehabilitation 13. Peripheral nerve stimulation 14. Brain stimulation 15. Assistive devices 16. Wheelchair design and seating technology 17. Rehabilitation robotics, orthotics, and prosthetics for the upper extremity 18. Rehabilitation robotics, orthotics, and prosthetics: lower limb 19. Virtual reality applications in neurorehabilitation 20. Communication devices 21. Requirements for valid clinical trials 22. Spinal cord injury: mechanisms, cellular and molecular therapies, and human translation 23. Motor neuroprosthetics Part III. Organization of Rehabilitation Services: 24. Neurohabilitative interventions in the acute stage of diseases 25. The rehabilitation team and the economics of neurological rehabilitation Part IV. Symptom-Specific Neurorehabilitation - Sensory and Motor Dysfunctions: 26. Chronic pain 27. Loss of somatic sensation 28. Management of deforming spastic paresis 29. Contemporary concepts in upper extremity rehabilitation 30. Gait disorders and rehabilitation 31. Balance function and dysfunction and the vestibular system 32. Deconditioning and energy expenditure Part V. Vegetative and Autonomic Dysfunctions: 33. Acute neurorehabilitation for disorders of consciousness 34. Plasticity in the neural pathways for swallowing: role in rehabilitation of dysphagia 35. Autonomic dysfunction Part VI. Cognitive Rehabilitation: 36. Rehabilitation for aphasia 37. Apraxia 38. Unilateral neglect and anosognosia 39. Memory dysfunction 40. Neurorehabilitation of executive functions 41. Rehabilitation of visual field impairment Part VII. Disease-Specific Neurorehabilitation Systems: 42. Rehabilitation of dementia 43. Traumatic brain injury 44. Neurorehabilitation in epilepsy 45. Parkinson's disease and other movement disorders 46. Predicting activities after stroke 47. Evidence-based benefit of rehabilitation after stroke 48. Rehabilitation in spinal cord injury 49. Multiple sclerosis 50. Neuromuscular rehabilitation: diseases of the motor neuron, peripheral nerve, neuromuscular junction and the muscle Index.
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