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Operation of a Brain-Computer Interface Walking Simulator by Users with Spinal Cord Injury [article]

Christine E. King, Po T. Wang, Luis A. Chui, An H. Do, Zoran Nenadic
2012 arXiv   pre-print
Spinal cord injury (SCI) can leave the affected individuals unable to ambulate.  ...  Our recent studies show that a brain-computer interface (BCI) can be used to control ambulation within a virtual reality environment (VRE), suggesting that a BCI-controlled lower extremity prosthesis for  ...  Acknowledgments This study was funded by the Roman Reed Spinal Cord Injury Research Fund of California (RR 08-258 and RR 10-281), and was partially funded by the Long Beach VA Advanced Fellowship Research  ... 
arXiv:1209.1859v1 fatcat:aa2qki7e6fcnlhq3qc2k5q5ecu

Adaptation Strategies for Personalized Gait Neuroprosthetics

Anne D. Koelewijn, Musa Audu, Antonio J. del-Ama, Annalisa Colucci, Josep M. Font-Llagunes, Antonio Gogeascoechea, Sandra K. Hnat, Nathan Makowski, Juan C. Moreno, Mark Nandor, Roger Quinn, Marc Reichenbach (+9 others)
2021 Frontiers in Neurorobotics  
Furthermore, the advantages of interfacing with both the brain and the spinal cord or the periphery should be further explored.  ...  of interface computing architectures.  ...  of the conference.  ... 
doi:10.3389/fnbot.2021.750519 pmid:34975445 pmcid:PMC8716811 fatcat:yhi54olpwjfyzg65niy4vqlddy

The Bionic Man: Restoring Mobility

W. Craelius
2002 Science  
Bionics engineers are making increasingly bold and successful use of their tools to restore mobility to persons with missing or nonfunctional limbs.  ...  With crucial help from their pioneering users, they are learning how and where the residual sensorimotor system can be tapped in order to transmit its intents to replacement or reactivated body parts.  ...  This user, having nerve damage as a result of spinal cord injury, can grasp objects when his forearm muscles are stimulated with Bions.  ... 
doi:10.1126/science.295.5557.1018 pmid:11834819 fatcat:suq3c4ef7nbzrpcqt63dets23i

On the use of Non-Invasive Brain-Computer Interface Technology in Neurorehabilitation

R Scherer, T Solis-Escalante, J Faller, J Wagner, M Seeber, G Müller-Putz
2013 Biomedical Engineering  
Brain-Computer Interfaces (BCIs) are devices that bypass the normal neuromuscular output pathways and translate a user's brain signal directly into action.  ...  Since years, our group at the Graz University of Technology, Austria, successfully researches and develops applications for noninvasive electroencephalogram-based (EEG) BCIs that are operated by modulation  ...  This paper only reflects the authors' views and funding agencies are not liable for any use that may be made of the information contained herein.  ... 
doi:10.1515/bmt-2013-4436 pmid:24043189 fatcat:7ab7tkefqfdvrfmtgzsymz2ssi

Technology in Locomotion and Domotic Control for Quadriplegic

M. Plaza, W. Aperador, O. Aviles
2013 2013 29th Southern Biomedical Engineering Conference  
A spinal cord injury (SCI) is typically defined as damage or trauma to the spinal cord that in turn results in a loss or impaired function resulting in reduced mobility or feeling.  ...  The electronic control technology for mobility and domotics control (home automation systems) can be a great help to people with spinal injuries who have major limitations in the mobility and in the use  ...  It is caused by damage to the brain or the spinal cord at a high level C1 -C8 -in particular, spinal cord injuries secondary to an injury to the cervical spine.  ... 
doi:10.1109/sbec.2013.58 fatcat:dvtnqqf23jgfdfy6gngaqv7hda

Exoskeleton Control System Based on Motor-Imaginary Brain–Computer Interface

S.Yu. Gordleeva, M.V. Lukoyanov, S.A. Mineev, M.A. Khoruzhko, V.I. Mironov, A.Ya. Kaplan, V.B. Kazantsev
2017 Sovremennye tehnologii v medicine  
The aim of the investigation was to develop the neuro-integrated control system for a lower-limb robotic exoskeleton (RE) using brain-computer interface (BCI) technology based on recognition of EEG patterns  ...  The software has a simple graphical user interface and allows the user to change the mapping of RE patterns and commands in the operation process. Results.  ...  brain injury, spinal cord injury, cerebral palsy and other diseases).  ... 
doi:10.17691/stm2017.9.3.04 fatcat:nbcvzysrenc67cuwbxy2okiobm

Brain-Computer Interface Controlled Robotic Gait Orthosis [article]

An H. Do, Po T. Wang, Christine E. King, Sophia N. Chun, Zoran Nenadic
2013 arXiv   pre-print
Reliance on wheelchairs after spinal cord injury (SCI) leads to many medical co-morbidities. Treatment of these conditions contributes to the majority of SCI health care costs.  ...  These data were analyzed to generate an EEG prediction model for online BCI operation. A commercial robotic gait orthosis (RoGO) system (treadmill suspended), was interfaced with the BCI computer.  ...  INTRODUCTION I Ndividuals with tetraplegia or paraplegia due to spinal cord injury (SCI) are unable to walk and most are wheelchair bound.  ... 
arXiv:1208.5024v3 fatcat:h664xtaf2nabxo2ssbofuttn2i

Brain-computer interface controlled robotic gait orthosis

An H Do, Po T Wang, Christine E King, Sophia N Chun, Zoran Nenadic
2013 Journal of NeuroEngineering and Rehabilitation  
A commercial robotic gait orthosis (RoGO) system (suspended over a treadmill) was interfaced with the BCI computer to allow for computerized control.  ...  Excessive reliance on wheelchairs in individuals with tetraplegia or paraplegia due to spinal cord injury (SCI) leads to many medical co-morbidities, such as cardiovascular disease, metabolic derangements  ...  Research Fellowship Grant, the American Brain Foundation, the National Institutes of Health (Grant UL1 TR000153), and the National Science Foundation (Award: 1160200).  ... 
doi:10.1186/1743-0003-10-111 pmid:24321081 pmcid:PMC3907014 fatcat:m7hlg6ygcrgfpetz4kou6xgumq

Neurorestorative interventions involving bioelectronic implants after spinal cord injury

Newton Cho, Jordan W. Squair, Jocelyne Bloch, Grégoire Courtine
2019 Bioelectronic Medicine  
The spectrum of implantable brain-computer interface technologies is also expanding at a fast pace, and all these neurotechnologies are being progressively embedded within rehabilitation programs in order  ...  In the absence of approved treatments to repair damage to the central nervous system, the role of neurosurgeons after spinal cord injury (SCI) often remains confined to spinal cord decompression and vertebral  ...  Background A century of medical research and clinical practice has transformed the management of patients with spinal cord injury (SCI).  ... 
doi:10.1186/s42234-019-0027-x pmid:32232100 pmcid:PMC7098222 fatcat:4d3hjy3fxjajfd7xezo3scds6y

Brain-computer interface driven functional electrical stimulation system for overground walking in spinal cord injury participant

Christine E. King, Po T. Wang, Colin M. McCrimmon, Cathy C. Y. Chou, An H. Do, Zoran Nenadic
2014 2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society  
The current treatment for ambulation after spinal cord injury (SCI) is to substitute the lost behavior with a wheelchair; however, this can result in many co-morbidities.  ...  Thus, novel solutions for the restoration of walking, such as brain-computer interfaces (BCI) and functional electrical stimulation (FES) devices, have been sought.  ...  INTRODUCTION The current treatment for ambulation after spinal cord injury (SCI) is to substitute the lost motor behavior with a wheelchair [1] .  ... 
doi:10.1109/embc.2014.6943821 pmid:25570189 pmcid:PMC6508954 fatcat:s5scipebhbabfez4vx36ysfg44

Operation of a brain-computer interface walking simulator for individuals with spinal cord injury

Christine E King, Po T Wang, Luis A Chui, An H Do, Zoran Nenadic
2013 Journal of NeuroEngineering and Rehabilitation  
Spinal cord injury (SCI) can leave the affected individuals with paraparesis or paraplegia, thus rendering them unable to ambulate.  ...  Our recent studies show that a brain-computer interface (BCI) can be used to control ambulation within a virtual reality environment (VRE), suggesting that a BCI-controlled lower extremity prosthesis for  ...  Acknowledgements This study was funded by the Roman Reed Spinal Cord Injury Research Fund of California (RR 08-258 and RR 10-281), and was partially funded by the Long Beach VA Advanced Fellowship Research  ... 
doi:10.1186/1743-0003-10-77 pmid:23866985 pmcid:PMC3723437 fatcat:prji6iwfubbbnouvm3ihryg42q

Bibliometric analysis of global research on the rehabilitation of spinal cord injury in the past two decades

Liu X, Liu N, Zhou M, Lu Y, Li F
2018 Therapeutics and Clinical Risk Management  
evaluate publications of research of spinal cord injury rehabilitation from 1997 to 2016.  ...  Results: We identified 5,607 publications on rehabilitation of spinal cord injury from 1997 to 2016, and found that the annual publication rate increased with time.  ...  What would braincomputer interface users want: opinions and priorities of potential users with spinal cord injury. Thomschewski A, Höller Y, Höller P, Leis S, Trinka E.  ... 
doaj:c5385770d2e5434588c12726828c13ba fatcat:fdntp5pumrdmpnih7crrxhccka

Design of a Novel Paired Associative Nerve Stimulation System and Treatment Strategy for Incomplete Spinal Cord Injury: A Preliminary Study

Zhao Zhang, Bor-Shing Lin, Chih-Wei Peng, Wing P. Chan, Bor-Shyh Lina, Chien-Hung Lai
2021 IEEE transactions on neural systems and rehabilitation engineering  
To determine the feasibility of the neurorehabilitation treatment and to estimate the effect of PANS on nerve plasticity for individuals with incomplete spinal cord injury (iSCI), a design combining repetitive  ...  Index Terms-Incomplete spinal cord injury, neurorehabilitation, paired associative nerve stimulation,  ...  It communicated with the host computer through the RS232 protocol. Users could set its magnetic field strength and operation mode through the graphical user interface installed in the host computer.  ... 
doi:10.1109/tnsre.2021.3095842 fatcat:dfqkepoc4fgrvjklihhpifi7dm

Publication related to Human Brain Project, Prof Courtine Laboratory

Gregoire Courtine
2019 Zenodo  
Publication related to human Brain project SGA2  ...  A brain-spine interface alleviating gait deficits after spinal cord injury in primates. Nature 539, 284-288, (2016). 24 Dominici, N. et al.  ...  D. & Sherman, A. L. Locomotor training approaches for individuals with spinal cord injury: a preliminary report of walking-related outcomes.  ... 
doi:10.5281/zenodo.3736703 fatcat:5i7qegfybnhubnpc4bjgdphfui

Neuromusculoskeletal Modeling-Based Prostheses for Recovery After Spinal Cord Injury

Claudio Pizzolato, David J Saxby, Dinesh Palipana, Laura E Diamond, Rod S Barrett, Yang D Teng, David G Lloyd
2019 Frontiers in Neurorobotics  
cord injury (SCI).  ...  This can be achieved by applying multimodal rehabilitation regimens, such as thought-controlled exoskeletons or epidural electrical stimulation to recover motor pattern generation in individuals with spinal  ...  Brain-Computer Interfaces Brain-computer interface can capture the user's intention to perform a movement, which can be used to control computer simulations and/or external electromechanical devices (  ... 
doi:10.3389/fnbot.2019.00097 pmid:31849634 pmcid:PMC6900959 fatcat:gwceu7ipljgcdlp4urfmecwzja
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