Neurorehabilitation technology
Reinkensmeyer, David J.

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  • Neurorehabilitation technology
  • 紀錄類型: 書目-電子資源 : Monograph/item
    正題名/作者: Neurorehabilitation technology/ edited by David J. Reinkensmeyer, Laura Marchal-Crespo, Volker Dietz.
    其他作者: Reinkensmeyer, David J.
    出版者: Cham :Springer International Publishing : : 2022.,
    面頁冊數: x, 785 p. :ill., digital ;24 cm.
    內容註: Introduction: Overview of the book -- Part I: Basic framework: Movement recovery and neuroplasticity -- Learning in the damaged brain/spinal cord: Neuroplasticity -- Movement neuroscience foundations of neurorehabilitation -- Recovery of sensorimotor functions after stroke and SCI: Neurophysiological basis of rehabilitation technology -- Part II: From movement physiology to technology application -- The upper limb after SCI: Use of technology in the assessment and rehabilitation -- Implementation of impairment based neuro-rehabilitation devices and technologies following brain injury -- The hand after stroke and SCI: Restoration of function with technology -- Neural coupling in movement coordination: Implications for rehabilitation technology -- Robotic gait training in specific neurological conditions: Rationale and application -- Part III: Principles for interactive rehabilitation technology -- Designing technology solutions for rehabilitation challenge that optimize motor performance -- Psychophysiological integration of humans and machines for rehabilitation -- Sensory-motor interactions and the manipulation of movement error -- Role of haptic interactions with machines for promoting motor learning -- Implementation of robots into rehabilitation programs: Meeting the requirements and expectations of professional and end users -- Application of rehabilitation technologies in children undergoing neurorehabilitation -- Part IV: Assessment technology and predictive modeling -- Robotic technologies and digital health metrics for assessing sensorimotor disability -- Computational neurorehabilitation -- Precision rehabilitation: Can neurorehabilitation technology help make it a realistic target?- Part V: General technological approaches in neurorehabilitation -- Spinal cord stimulation to enable leg motor control And walking in people with spinal cord injury -- Functional electrical stimulation therapy: Recovery of function following spinal cord injury and stroke -- Basis and clinical evidence of virtual reality-based rehabilitation of sensorimotor impairments after stroke -- Wearable sensors for stroke rehabilitation -- BCI-based neuroprostheses and physiotherapies for stroke motor rehabilitation -- Passive devices for upper limb training -- Mobile technologies for cognitive rehabilitation -- Telerehabilitation technology -- Part VI: Robotic technologies for neurorehabilitation: Upper extremity -- Forging Mens et Manus: The MIT experience in upper extremity robotic therapy -- Three-dimensional multi-degree-of-freedom arm therapy robot (armin) -- Upper extremity movement training with mechanically assistive devices -- Part VII: Robotic technologies for neurorehabilitation: Gait and balance -- Technology of the robotic gait orthosis lokomat -- Using robotic exoskeletons for over-ground locomotor training -- Beyond human or robot administered treadmill training -- Toward flexible assistance for locomotor training: Design and clinical testing of a cable-driven robot for stroke, spinal cord injury, and cerebral palsy -- Body weight support devices for overground gait and balance training -- Epilogue: The ongoing debate over robots in neurorehabilitation.
    Contained By: Springer Nature eBook
    標題: Nervous system - Diseases -
    電子資源: https://doi.org/10.1007/978-3-031-08995-4
    ISBN: 9783031089954
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