June 18, 2021

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Technology-Assisted Neurorehabilitation

Technology-Assisted Neurorehabilitation
Author : Natalia Lopez
Publisher : Academic Press
Release Date : 2020-06
Category : Technology & Engineering
Total pages :300
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Technology-Assisted Neurorehabilitation introduces biomedical engineers, health professionals and researchers to the study and integration of neurorehabilitation advances, specifically focusing on applied technologies and mathematical methods. Coverage includes neuroanatomy and neuromodulation, robotic rehabilitation devices, signal processing, human-machine interfaces, software development, serious games and virtual reality. It takes an interdisciplinary approach, including real world applications and new trends. Both medical and technological fields are represented, with a focus on neurological disease. With the computerization of today's therapeutic technology, this book is a valuable asset to any student in the bioengineering or healthcare fields. Offers comprehensive coverage of the basics in neurorehabilitation technologies Provides reviews of research on each individual topic within the context of their clinical applications Presents an anatomical/medical overview of normal human physiology and pathology Applies technology, engineering and computing to a rehabilitative top-down approach

Neurorehabilitation Technology

Neurorehabilitation Technology
Author : David J. Reinkensmeyer,Volker Dietz
Publisher : Springer
Release Date : 2016-08-03
Category : Medical
Total pages :647
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This revised, updated second edition provides an accessible, practical overview of major areas of technical development and clinical application in the field of neurorehabilitation movement therapy. The initial section provides a rationale for technology application in movement therapy by summarizing recent findings in neuroplasticity and motor learning. The following section then explains the state of the art in human-machine interaction requirements for clinical rehabilitation practice. Subsequent sections describe the ongoing revolution in robotic therapy for upper extremity movement and for walking, and then describe other emerging technologies including electrical stimulation, virtual reality, wearable sensors, and brain-computer interfaces. The promises and limitations of these technologies in neurorehabilitation are discussed. Throughout the book the chapters provide detailed practical information on state-of-the-art clinical applications of these devices following stroke, spinal cord injury, and other neurologic disorders. The text is illustrated throughout with photographs and schematic diagrams which serve to clarify the information for the reader. Neurorehabilitation Technology, Second Edition is a valuable resource for neurologists, biomedical engineers, roboticists, rehabilitation specialists, physiotherapists, occupational therapists and those training in these fields.

Converging Clinical and Engineering Research on Neurorehabilitation III

Converging Clinical and Engineering Research on Neurorehabilitation III
Author : Lorenzo Masia,Silvestro Micera,Metin Akay,José L. Pons
Publisher : Springer
Release Date : 2018-10-15
Category : Technology & Engineering
Total pages :1180
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The book reports on advanced topics in the areas of neurorehabilitation research and practice. It focuses on new methods for interfacing the human nervous system with electronic and mechatronic systems to restore or compensate impaired neural functions. Importantly, the book merges different perspectives, such as the clinical, neurophysiological, and bioengineering ones, to promote, feed and encourage collaborations between clinicians, neuroscientists and engineers. Based on the 2018 International Conference on Neurorehabilitation (ICNR 2018) held on October 16-20, 2018, in Pisa, Italy,, this book covers various aspects of neurorehabilitation research and practice, including new insights into biomechanics, brain physiology, neuroplasticity, and brain damages and diseases, as well as innovative methods and technologies for studying and/or recovering brain function, from data mining to interface technologies and neuroprosthetics. In this way, it offers a concise, yet comprehensive reference guide to neurosurgeons, rehabilitation physicians, neurologists, and bioengineers. Moreover, by highlighting current challenges in understanding brain diseases as well as in the available technologies and their implementation, the book is also expected to foster new collaborations between the different groups, thus stimulating new ideas and research directions.

Medical Aspects of Disability, Fourth Edition

Medical Aspects of Disability, Fourth Edition
Author : Dr. Herbert H. Zaretsky, PhD,Dr. Steven R. Flanagan, MD,Dr. Alex Moroz, MD
Publisher : Springer Publishing Company
Release Date : 2010-07-20
Category : Medical
Total pages :784
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"Like its predecessor, the book remains one of the best sources of rehabilitation practice preparation for students and the most enlightened guide for rehabilitation professionals." --Nan Zhang Hampton, PhD, CRC Department of Counseling and School PsychologyUniversity of Massachusetts Medical Aspects of Disability has continually been the go-to resource for health care professionals, educators, and students. Now in its fourth edition, this landmark volume has been substantially revised, updated, and expanded-comprehensively describing aspects of disability pertaining to medical conditions commonly encountered in rehabilitation settings. This edition discusses important topics that have come to the forefront of medical rehabilitation and disability, covering disabling conditions and disorders not only from clinical but also functional and psychological perspectives. Chapter authors, among the most widely respected authorities in their respective fields, provide comprehensive guides on what to expect and how to manage each medical issue, discussing the causative agents, classification, pain management, psychological factors, and much more. Emerging Topics Discussed: Social work in physical medicine The information revolution, disability, and assistive technology Complementary and alternative medicine Trends in medical rehabilitation delivery and payment systems Legislation and rehabilitation professionals Telerehabilitation: solutions to distant and international care Disabling Conditions and Disorders Included: Geriatric rehabilitation Limb deficiency Organ transplantation Cardiovascular disorders Traumatic brain injury Diabetes mellitus Epilepsy Visual impairments Peripheral vascular disorders Rehabilitation in cancer patients AIDS and HIV Rehabilitation in burns Speech, language, hearing, and swallowing disorders

Telerehabilitation

Telerehabilitation
Author : Sajeesh Kumar,Ellen R. Cohn
Publisher : Springer Science & Business Media
Release Date : 2012-10-28
Category : Medical
Total pages :338
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Written by experts from around the globe, this book presents explains technical issues and clinical applications. It includes collective experiences from rehabilitation service providers in different parts of the world practicing a wide range of telerehabilitation applications. This book lays the foundations for the globalization of telerehabilitation procedures, making it possible for rehabilitation service to be delivered anywhere in the world.

Brain Computer Interface Design for Robot Assisted Neurorehabilitation

Brain Computer Interface Design for Robot Assisted Neurorehabilitation
Author : Sumner Lee Norman
Publisher : Unknown
Release Date : 2017
Category :
Total pages :162
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Stroke is the number one cause of movement disability in the world. In recent years, robotic assistance has empowered people with stroke to complete intensive movement therapy in motivating environments, thus matching or bettering the motor recovery attainable with traditional therapy. Yet, motor deficits remain stubbornly persistent, especially for those with severe impairments.Brain-computer interfaces (BCI) are a technology that can facilitate direct communication between the brain and an external device. BCIs have already been used to control robotic prostheses to replace lost function. The premise of this dissertation is that, with the right tools and knowledge, BCIs could also help restore function to those with movement disability after a neurologic injury. In this dissertation, I investigate use of a BCI to help individuals with a stroke shape their brain activity while moving the fingers with assistance from a robotic orthosis, with the goal of guiding activity-dependent plasticity in the brain to drive motor recovery. The working hypothesis is that appropriately shaping brain activity will improve finger movement ability and provide a therapeutic benefit after stroke.First, I present a computational model of motor learning that uses a neural network to simulate the motor cortex after a stroke and during subsequent finger force recovery. These simulations suggested that BCI-based interventions should target perilesional motor areas, thus restoring normative network recruitment during finger movement, and that targeted training should make up about 20% of total limb use to maximize recovery.In a study of unimpaired people completing a robot-assisted movement task, I identified a key confound of BCI-contingent robot-assisted therapy, showing that robot assistance can affect the BCI even when the participant is passive, which may hinder motor learning. I also present a potential design approach for both the robot and the BCI to avoid this confound.I then explore BCI methodological considerations in two experiments with impaired and unimpaired people moving in a robot-assisted environment. Key results included that bipolar EEG recordings and finger extension movements led to the best models correlating brain state with ensuing movement and are thus most conducive to BCI-based training.The culmination of this work is the design of a BCI-robot rehabilitation paradigm, which I tested in a study with eight people with severe impairment after a chronic stroke. Participants participated in four weeks of a therapy protocol that determined the effect of BCI-based sensorimotor rhythm control on finger extension performance. Here, we found that BCI training can improve subsequent movement performance -- a result never before found for individuals with a stroke. The training also produced therapeutic benefits, indicating its viability as a future rehabilitation intervention. Finally, looking to the future of BCI-robot therapy, I present low-cost alternatives for BCI signal acquisition and wearable robotic devices.

Advances in Rehabilitation Robotics

Advances in Rehabilitation Robotics
Author : Z. Zenn Bien,Dimitar Stefanov
Publisher : Springer Science & Business
Release Date : 2004-06-24
Category : Technology & Engineering
Total pages :444
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One of the major application targets of service robots is to use them as assistive devices for rehabilitation. This book introduces some latest achievements in the field of rehabilitation robotics and assistive technology for people with disabilities and aged people. The book contains results from both theoretical and experimental works and reviews on some new advanced rehabilitation devices which has been recently transferred to the industry. Significant parts of the book are devoted to the assessment of new rehabilitation technologies, the evaluation of prototype devices with end-users, the safety of rehabilitation robots, and robot-assisted neurorehabilitation. The book is a representative selection of the latest trends in rehabilitation robotics and can be used as a reference for teaching on mechatronic devices for rehabilitation.

Rehabilitation Robotics

Rehabilitation Robotics
Author : Roberto Colombo,Vittorio Sanguineti
Publisher : Academic Press
Release Date : 2018-03-08
Category : Technology & Engineering
Total pages :382
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Rehabilitation Robotics gives an introduction and overview of all areas of rehabilitation robotics, perfect for anyone new to the field. It also summarizes available robot technologies and their application to different pathologies for skilled researchers and clinicians. The editors have been involved in the development and application of robotic devices for neurorehabilitation for more than 15 years. This experience using several commercial devices for robotic rehabilitation has enabled them to develop the know-how and expertise necessary to guide those seeking comprehensive understanding of this topic. Each chapter is written by an expert in the respective field, pulling in perspectives from both engineers and clinicians to present a multi-disciplinary view. The book targets the implementation of efficient robot strategies to facilitate the re-acquisition of motor skills. This technology incorporates the outcomes of behavioral studies on motor learning and its neural correlates into the design, implementation and validation of robot agents that behave as ‘optimal’ trainers, efficiently exploiting the structure and plasticity of the human sensorimotor systems. In this context, human-robot interaction plays a paramount role, at both the physical and cognitive level, toward achieving a symbiotic interaction where the human body and the robot can benefit from each other’s dynamics. Provides a comprehensive review of recent developments in the area of rehabilitation robotics Includes information on both therapeutic and assistive robots Focuses on the state-of-the-art and representative advancements in the design, control, analysis, implementation and validation of rehabilitation robotic systems

EMBC 2004

EMBC 2004
Author : IEEE Engineering in Medicine and Biology Society. Conference
Publisher : Unknown
Release Date : 2004
Category : Biomedical engineering
Total pages :5459
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Neurorehabilitation Devices

Neurorehabilitation Devices
Author : Thompson Sarkodie-Gyan
Publisher : McGraw Hill Professional
Release Date : 2006
Category : Business & Economics
Total pages :312
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Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Debilitating neuromuscular disorders and traumatic brain, spinal cord or peripheral injuries have a devastating effect on those who suffer from them. Written from an engineering perspective, and based on a course taught by the American Society of Mechanical Engineers, Neurorehabilitation Devices first helps the designer to better understand and formulate design, measurement and control systems for biomedical devices used in the treatment and recovery of people suffering from these disorders. Just some of the topics covered in this book are: methods to allow an amputee to control a powered artificial arm by means of electrical signals generated by contractions of muscles of the residual limb in combination with motor nerve activity from peripheral nerves, as well as the development of new technologies to use electrical stimulation to treat the hyperactive bladder, to electrically induce bowel movement and defecation, and to develop methods for selective stimulation of nerve fibres.

Advances in Rehabilitation Robotics

Advances in Rehabilitation Robotics
Author : Z. Zenn Bien,Dimitar Stefanov
Publisher : Springer
Release Date : 2014-10-08
Category : Technology & Engineering
Total pages :444
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One of the major application targets of service robots is to use them as assistive devices for rehabilitation. This book introduces some latest achievements in the field of rehabilitation robotics and assistive technology for people with disabilities and aged people. The book contains results from both theoretical and experimental works and reviews on some new advanced rehabilitation devices which has been recently transferred to the industry. Significant parts of the book are devoted to the assessment of new rehabilitation technologies, the evaluation of prototype devices with end-users, the safety of rehabilitation robots, and robot-assisted neurorehabilitation. The book is a representative selection of the latest trends in rehabilitation robotics and can be used as a reference for teaching on mechatronic devices for rehabilitation.

Neurological Rehabilitation

Neurological Rehabilitation
Author : Michael P. Barnes,David C. Good
Publisher : Elsevier Science Limited
Release Date : 2012
Category : Medical
Total pages :539
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Neurological Rehabilitation is the latest volume in the definitive Handbook of Clinical Neurology series. It is the first time that this increasing important subject has been included in the series and this reflects the growing interest and quality of scientific data on topics around neural recovery and the practical applications of new research. The volume will appeal to clinicians from both neurological and rehabilitation backgrounds and contains topics of interest to all members of the multidisciplinary clinical team as well as the neuroscience community. The volume is divided into five key sections. The first is a summary of current research on neural repair, recovery and plasticity. The authors have kept the topics readable for a non-scientific audience and focused on the aspects of basic neuroscience that should be most relevant to clinical practice. The next section covers the basic principles of neurorehabilitation, including excellent chapters on learning and skill acquisition, outcome measurement and functional neuroimaging. The key clinical section comes next and includes updates and reviews on the management of the main neurological disabling physical problems, such as spasticity, pain, sexual functioning and dysphagia. Cognitive, emotional and behavioural problems are just as important and are covered in the next section, with excellent chapters, for example, on memory and management of executive dysfunction. The final part draws the sections on symptom management together by discussing the individual diseases that are most commonly seen in neurorehabilitation and providing an overview of the management of the disability associated with those disorders. The volume is a definitive review of current neurorehabilitation practice and will be valuable to a wide range of clinicians and scientists working in this rapidly developing field. *A volume in the Handbook of Clinical Neurology series, which has an unparalleled reputation as the world's most comprehensive source of information in neurology. *International list of contributors including the leading workers in the field. *Describes the advances which have occurred in clinical neurology and the neurosciences, their impact on the understanding of neurological disorders and on patient care.

Biomechanics, Neurorehabilitation, Mechanical Engineering, Manufacturing Systems, Robotics and Aerospace

Biomechanics, Neurorehabilitation, Mechanical Engineering, Manufacturing Systems, Robotics and Aerospace
Author : Adrian Olaru
Publisher : Trans Tech Publications Ltd
Release Date : 2012-12-13
Category : Technology & Engineering
Total pages :368
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The main objective of the special collection of 53 peer-reviewed papers was to gather some of the current knowledge from leading researchers, engineers and scientists in the field of: Biomechanics, Biomechatronics, Neurorehabilitation, Mechanical Engineering, Manufacturing Systems, Robotics, Aerospace.

Proceedings of the ... Annual Conference

Proceedings of the ... Annual Conference
Author : RESNA (Association). Conference
Publisher : Unknown
Release Date : 2000
Category : Orthopedic apparatus
Total pages :129
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Advanced Technologies in Rehabilitation

Advanced Technologies in Rehabilitation
Author : Patrice L. Weiss
Publisher : IOS Press
Release Date : 2009-01-01
Category : Medical
Total pages :281
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The goal of this book is to bring together ideas from several different disciplines in order to examine the focus and aims that drive rehabilitation intervention and technology development. Specifically, the chapters in this book address the questions of what research is currently taking place to further develop rehabilitation, applied technology and how we have been able to modify and measure responses in both healthy and clinical populations using these technologies.