UID:
almahu_9949697781402882
Umfang:
1 online resource (196 pages)
Ausgabe:
1st ed.
ISBN:
0-323-95853-2
Inhalt:
Modern Intervention Tools for Rehabilitation addresses current advancements in rehabilitation to better equip clinicians and researchers in the field. This resource will equip professionals for better patient outcomes and improve future rehabilitation research quality. An interdisciplinary understanding of the rehabilitation field is crucial for improved patient care and outcomes, with relevance to patient care in other disciplines as well. With chapters dedicated to diagnostics, choosing appropriate techniques, managing medical treatment, and proper equipment care, readers will be well-equipped to decide on protocols, increase patient outcomes, and improve quality of life.
Anmerkung:
Front cover -- Half title -- Title -- Copyright -- Contents -- Foreword -- Foreword -- Preface -- Acknowledgment -- Chapter 1 Introduction -- Concept of modern intervention tools -- Concept and history of rehabilitation -- Benefits of modern intervention tools in rehabilitation -- IT in rehabilitation -- Robotics therapy -- Robotic system for gait rehabilitation -- Virtual reality -- Augmented reality -- Transcranial stimulation -- Android-based system for rehabilitation -- References -- Chapter 2 Ethics in modern rehabilitation system -- Concept of law and ethics in healthcare -- Law -- Ethics -- Informed consent -- Ethical issues in modern rehabilitation industry -- Privacy and security -- Jurisdiction of courts -- Exemplary e-health organizations -- Codes of ethics -- Malpractice -- References -- Chapter 3 Micro electrical mechanical system (MEMS) sensor technologies -- Introduction to micro electrical mechanical system (MEMS) -- Applications of MEMS in engineering product designing -- Application of MEMS in rehabilitation -- MEMS at microscopic scale -- Technological advancement of MEMS -- Application of MEMS in medicine and biomedical field -- MEMS and drug delivery -- Smart pill -- Blood pressure sensor -- Advantages of MEMS -- Disadvantages of MEMS -- Future growth of MEMS -- Discussions and summary -- References -- Chapter 4 Brain stimulation in rehabilitation -- Introduction -- Brain stimulation technologies -- Vagus nerve stimulation -- Mechanism of action of vagus nerve stimulation -- Transcranial magnetic stimulation -- Mechanism of transcranial magnetic stimulation -- Transcranial electrical stimulation (tES) -- Safety and tolerability of tES -- Evolution in TMS -- The development of modern transcranial magnetic stimulation -- Neurostar -- Deep TMS -- Neuronavigated TMS (FMRI TMS) -- Theta burst stimulation.
,
Structural variation of figure-eight coils -- Role of TMS in stroke -- Role of TMS in cerebral palsy -- Role of TMS in Alzheimer's disease -- Role of TMS in dementia -- Role of TMS in autism -- Deep brain stimulation -- Mechanism of deep brain stimulation -- Risk factors and side effects -- DBS in various neurological conditions -- Parkinson's disease -- Dystonia -- Huntington's disease -- DBS in Alzheimer's disease -- Discussion -- Conclusion -- References -- Chapter 5 Advanced robotic rehabilitation -- Introduction -- Robotic rehabilitation -- Evaluation in the field of rehabilitation -- Lower limb rehabilitation -- Tethered exoskeleton -- End-effector devices -- Untethered exoskeletons -- Patient-guided suspension systems -- Upper limb rehabilitation -- Existing upper limb exoskeleton -- Discussion -- Conclusion -- References -- Chapter 6 Neural prosthesis in rehabilitation -- Introduction to the mechanism of action of neural prosthesis in rehabilitation -- Clinical application relevance in sensory prosthesis -- Neuroprosthesis in cognitive and physical domain -- Summary -- References -- Chapter 7 Virtual reality, augmented reality technologies, and rehabilitation -- Introduction -- Virtual reality -- Augmented reality -- Commercial AR products in image-guided interventions -- Braincomputer interface -- BCI technology -- Recording and decoding -- Neural features and degrees of freedom -- External output devices -- Neuromuscular FES -- Virtual reality and BCI -- Orthoses, exoskeleton, and robots -- BCI applications in rehabilitation -- Motor restoration (spinal cord injury, stroke) -- Sensory restoration -- Ethical considerations of BCI use in rehabilitation -- Conclusion -- References -- Chapter 8 Machine learning, artificial intelligence technologies, and rehabilitation -- Introduction -- Machine learning for rehabilitation.
,
Artificial intelligence in rehabilitation -- Features of AI -- AI for healthcare -- Big data in healthcare -- Case study: public health system and AI -- Converging machine learning and AI for the future healthcare -- IoT in healthcare -- Conclusion -- References -- Chapter 9 Exploring the frontiers of assistive technologies in rehabilitation -- Background -- Benefits and limitations of telerehabilitation -- Better access to healthcare -- Access to better healthcare -- Improved communication between curers -- Easier and better continuing education -- Better access to information -- Better resource utilisation -- Reduced costs -- Poor relationships between healthcare professionals -- Organisational disruption -- Additional training needs -- Difficult protocol development -- Mobile health technology -- Challenges in the deployment of mobile health technology -- Technological challenges -- Socioeconomic challenges -- Infrastructure challenges -- Security and privacy challenges -- Analytical challenges -- Language and literacy challenges -- Structural challenges -- Quality of health care challenges -- Legal challenges -- Smart homes assistive technologies -- Assistive technology for cognition -- Technological assistance services -- Importance of technological and personal assistance -- References -- Index -- Back cover.
Weitere Ausg.:
Print version: Gupta, Meena Modern Intervention Tools for Rehabilitation San Diego : Elsevier Science & Technology,c2023 ISBN 9780323991247
Sprache:
Englisch
