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The Journal of Spinal Cord Medicine Volume 41, 2018 - Issue 5: Stronger Together: Passion, Purpose and Possibilities in SCI/D: ASCIP 2018 Conference Abstracts
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Research Articles

The effects of robot assisted gait training on temporal-spatial characteristics of people with spinal cord injuries: A systematic review

Stephen Clive HayesSchool of Life Sciences, University of Hull, Hull, UK
,
Christopher Richard James WilcoxSchool of Life Sciences, University of Hull, Hull, UKCorrespondence[email protected]
,
Hollie Samantha Forbes WhiteSchool of Life Sciences, University of Hull, Hull, UK
&
Natalie VanicekSchool of Life Sciences, University of Hull, Hull, UKORCID Iconhttps://orcid.org/0000-0002-9602-3172
ORCID Icon
Pages 529-543 | Published online: 05 Feb 2018

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Kenichi Yoshikawa, Hirotaka Mutsuzaki, Kazunori Koseki, Koichi Iwai, Ryoko Takeuchi & Yutaka Kohno. (2023) Gait training using a wearable robotic hip device for incomplete spinal cord injury: A preliminary study. The Journal of Spinal Cord Medicine 0:0, pages 1-13.
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Ashraf S. Gorgey & Matthew E. Holman. (2018) The future of SCI rehabilitation: Understanding the impact of exoskeletons on gait mechanics. The Journal of Spinal Cord Medicine 41:5, pages 544-546.
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Articles from other publishers (16)

Alicja Widuch-Spodyniuk, Beata Tarnacka, Bogumił Korczyński & Justyna Wiśniowska. (2023) Impact of Robotic-Assisted Gait Therapy on Depression and Anxiety Symptoms in Patients with Subacute Spinal Cord Injuries (SCIs)—A Prospective Clinical Study. Journal of Clinical Medicine 12:22, pages 7153.
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Amber LaMarca, Ivy Tse & Julie Keysor. (2023) Rehabilitation Technologies for Chronic Conditions: Will We Sink or Swim?. Healthcare 11:20, pages 2751.
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Luo Bin, Xiaoping Wang, Hu Jiatong, Fan Donghua, Wang Qiang, Shen Yingchao, Miao Yiming & Ma Yong. (2023) The effect of robot-assisted gait training for patients with spinal cord injury: a systematic review and meta-analysis. Frontiers in Neuroscience 17.
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Dariusz Mikołajewski, Izabela Rojek, Piotr Kotlarz, Janusz Dorożyński & Jakub Kopowski. (2023) Personalization of the 3D-Printed Upper Limb Exoskeleton Design—Mechanical and IT Aspects. Applied Sciences 13:12, pages 7236.
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Matthias J. Krenn, Jason M. White, Dobrivoje S. Stokic & Keith E. Tansey. (2022) Neuromodulation with transcutaneous spinal stimulation reveals different groups of motor profiles during robot-guided stepping in humans with incomplete spinal cord injury. Experimental Brain Research 241:2, pages 365-382.
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Tingting Ma, Qi Zhang, Tiantian Zhou, Yanqing Zhang, Yan He, Sijia Li & Qianjin Liu. (2022) Effects of robotic-assisted gait training on motor function and walking ability in children with thoracolumbar incomplete spinal cord injury. NeuroRehabilitation, pages 1-10.
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Federica Tamburella, Matteo Lorusso, Marco Tramontano, Silvia Fadlun, Marcella Masciullo & Giorgio Scivoletto. (2022) Overground robotic training effects on walking and secondary health conditions in individuals with spinal cord injury: systematic review. Journal of NeuroEngineering and Rehabilitation 19:1.
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Stephen Clive Hayes, Matthew White, Christopher Richard James Wilcox, Hollie Samantha Forbes White & Natalie Vanicek. (2022) Biomechanical differences between able-bodied and spinal cord injured individuals walking in an overground robotic exoskeleton. PLOS ONE 17:1, pages e0262915.
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Sung-Hyeon Kim, Ho-Jin Shin & Hwi-Young Cho. (2021) Preliminary Assessment of Muscle Activity and Muscle Characteristics during Training with Powered Robotic Exoskeleton: A Repeated-Measures Study. Healthcare 9:8, pages 1003.
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Silvia Corbianco, Gabriella Cavallini, Marco Dini, Ferdinando Franzoni, Carla D’Avino, Adriana Gerini & Giulia Stampacchia. (2021) Energy cost and psychological impact of robotic-assisted gait training in people with spinal cord injury: effect of two different types of devices. Neurological Sciences 42:8, pages 3357-3366.
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Marcel P. Dijkers, Katherine G. Akers, Sabrina Dieffenbach & Sujay S. Galen. (2021) Systematic Reviews of Clinical Benefits of Exoskeleton Use for Gait and Mobility in Neurologic Disorders: A Tertiary Study. Archives of Physical Medicine and Rehabilitation 102:2, pages 300-313.
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Kenichi Yoshikawa, Hirotaka Mutsuzaki, Kazunori Koseki, Yusuke Endo, Yuko Hashizume, Ryo Nakazawa, Toshiyuki Aoyama, Arito Yozu & Yutaka Kohno. (2020) Gait Training Using a Wearable Robotic Device for Non-Traumatic Spinal Cord Injury: A Case Report. Geriatric Orthopaedic Surgery & Rehabilitation 11, pages 215145932095696.
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Raza N. Malik, Gevorg Eginyan, Andrea K. Lynn & Tania Lam. (2019) Improvements in skilled walking associated with kinematic adaptations in people with spinal cord injury. Journal of NeuroEngineering and Rehabilitation 16:1.
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O. G. Prudnikova, A. A. Kachesova & S. O. Ryabykh. (2019) Rehabilitation of patients in late period after spinal cord injury: a meta-analysis of literature data. Hirurgiâ pozvonočnika (Spine Surgery) 16:3, pages 8-16.
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M. Jäger, C. Mayer, H. Hefter, M. Siebler & A. Kecskeméthy. (2018) Big Data und maschinelles Lernen bei Prävention und RehabilitationBig data and deep learning in preventive and rehabilitation medicine. Der Orthopäde 47:10, pages 826-833.
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D. Kuhn & B. Freyberg-Hanl. (2018) Exoskelett: Therapiesystem oder Hilfsmittel zum BehinderungsausgleichExoskeleton: therapy system or aid for disability compensation. Trauma und Berufskrankheit 20:S4, pages 254-259.
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