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Brain-Computer Interfaces [electronic resource] : Neurorehabilitation of Voluntary Movement after Stroke and Spinal Cord Injury / by Cesar Marquez-Chin, Naaz Kapadia-Desai, Sukhvinder Kalsi-Ryan.

By: Marquez-Chin, Cesar [author.].
Contributor(s): Kapadia-Desai, Naaz [author.] | Kalsi-Ryan, Sukhvinder [author.] | SpringerLink (Online service).
Material type: materialTypeLabelBookSeries: Synthesis Lectures on Assistive, Rehabilitative, and Health-Preserving Technologies: Publisher: Cham : Springer International Publishing : Imprint: Springer, 2021Edition: 1st ed. 2021.Description: VIII, 133 p. online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9783031016080.Subject(s): Bioinformatics | Medical informatics | Biomedical engineering | Health services administration | Bioinformatics | Health Informatics | Biomedical Engineering and Bioengineering | Health Care ManagementAdditional physical formats: Printed edition:: No title; Printed edition:: No title; Printed edition:: No titleDDC classification: 570.285 Online resources: Click here to access online
Contents:
Acknowledgments -- Stroke, Spinal Cord Injury, and Neurorehabilitation -- Functional Electrical Stimulation Therapy: A Closer Look -- Robotic-Assisted Rehabilitation -- Brain-Computer Interfaces -- The Intersection of Brain-Computer Interfaces and Neurorehabilitation -- Implementation of a BCI-Triggered Functional Electrical Stimulation Therapy -- Concluding Remarks -- References -- Authors' Biographies.
In: Springer Nature eBookSummary: Stroke and spinal cord injury often result in paralysis with serious negative consequences to the independence and quality of life of those who sustain them. For these individuals, rehabilitation provides the means to regain lost function. Rehabilitation following neurological injuries has undergone revolutionary changes, enriched by neuroplasticity. Neuroplastic-based interventions enhance the efficacy and continue to guide the development of new rehabilitation strategies. This book presents three important technology-based rehabilitation interventions that follow the concepts of neuroplasticity. The book also discusses clinical results related to their efficacy. These interventions are: functional electrical stimulation therapy, which produces coordinated muscle contractions allowing people with paralysis to perform functional movements with rich sensory feedback; robot-assisted therapy, which uses robots to assist, resist, and guide movements with increased intensity while also reducing the physical burden on therapists; and brain-computer interfaces, which make it possible to verify the presence of motor-related brain activity during rehabilitation. Further, the book presents the combined use of these three technologies to illustrate some of the emerging approaches to the neurorehabilitation of voluntary movement. The authors share their practical experiences obtained during the development and clinical testing of functional electrical stimulation therapy controlled by a brain-computer interface as an intervention to restore reaching and grasping.
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Acknowledgments -- Stroke, Spinal Cord Injury, and Neurorehabilitation -- Functional Electrical Stimulation Therapy: A Closer Look -- Robotic-Assisted Rehabilitation -- Brain-Computer Interfaces -- The Intersection of Brain-Computer Interfaces and Neurorehabilitation -- Implementation of a BCI-Triggered Functional Electrical Stimulation Therapy -- Concluding Remarks -- References -- Authors' Biographies.

Stroke and spinal cord injury often result in paralysis with serious negative consequences to the independence and quality of life of those who sustain them. For these individuals, rehabilitation provides the means to regain lost function. Rehabilitation following neurological injuries has undergone revolutionary changes, enriched by neuroplasticity. Neuroplastic-based interventions enhance the efficacy and continue to guide the development of new rehabilitation strategies. This book presents three important technology-based rehabilitation interventions that follow the concepts of neuroplasticity. The book also discusses clinical results related to their efficacy. These interventions are: functional electrical stimulation therapy, which produces coordinated muscle contractions allowing people with paralysis to perform functional movements with rich sensory feedback; robot-assisted therapy, which uses robots to assist, resist, and guide movements with increased intensity while also reducing the physical burden on therapists; and brain-computer interfaces, which make it possible to verify the presence of motor-related brain activity during rehabilitation. Further, the book presents the combined use of these three technologies to illustrate some of the emerging approaches to the neurorehabilitation of voluntary movement. The authors share their practical experiences obtained during the development and clinical testing of functional electrical stimulation therapy controlled by a brain-computer interface as an intervention to restore reaching and grasping.

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