Advanced search
Publication Cover
Medical Devices: Evidence and Research Volume 9, 2016 - Issue
Submit an article Journal homepage
1,459
Views
145
CrossRef citations to date
0
Altmetric
Review

Clinical effectiveness and safety of powered exoskeleton-assisted walking in patients with spinal cord injury: systematic review with meta-analysis

Larry E Miller1 Miller Scientific Consulting, Inc., Asheville, NC, USACorrespondence[email protected]
,
Angela K Zimmermann1 Miller Scientific Consulting, Inc., Asheville, NC, USA
&
William G Herbert1 Miller Scientific Consulting, Inc., Asheville, NC, USA;2 Department of Human Nutrition, Foods, and Exercise, Virginia Tech, Blacksburg, VA, USA
Pages 455-466 | Published online: 22 Mar 2016

Citations (145)

Keep up to date with the latest research on this topic with citation updates for this article.

Subscribe to citation updates

Read on this site (23)

Christa M. Diot, Robyn L. Thomas, Liliane Raess, James G. Wrightson & Elizabeth G. Condliffe. (2023) Robotic lower extremity exoskeleton use in a non-ambulatory child with cerebral palsy: a case study. Disability and Rehabilitation: Assistive Technology 18:5, pages 497-501.
Read now
Rosanne B. van Dijsseldonk, Johanna E. Vriezekolk, Noël L. W. Keijsers, Alexander C. H. Geurts & Ilse J. W. van Nes. (2023) Needs and wishes for the future lower limb exoskeleton: an interview study among people with spinal cord injury with community-based exoskeleton experience. Disability and Rehabilitation 45:7, pages 1139-1146.
Read now
Lysanne van Silfhout, Allard J.F. Hosman, Henk van de Meent, Ronald H.M.A. Bartels & Michael J.R. Edwards. (2023) Design recommendations for exoskeletons: Perspectives of individuals with spinal cord injury. The Journal of Spinal Cord Medicine 46:2, pages 256-261.
Read now
Rebecca Charbonneau, Adalberto Loyola-Sanchez, Kyle McIntosh, Gail MacKean & Chester Ho. (2022) Exoskeleton use in acute rehabilitation post spinal cord injury: A qualitative study exploring patients’ experiences. The Journal of Spinal Cord Medicine 45:6, pages 848-856.
Read now
Sierra Zabel, Zachariah Lockhart, Nikhita Badiani, James Cornish, Leo Falzon, Adrian Flis, Kara Patterson, Sarah Gregor & Julie Vaughan-Graham. (2022) Physiotherapy students’ perspectives on the use and implementation of exoskeletons as a rehabilitative technology in clinical settings. Disability and Rehabilitation: Assistive Technology 17:7, pages 840-847.
Read now
Ellen Høyer, Arve Opheim & Vivien Jørgensen. (2022) Implementing the exoskeleton Ekso GTTM for gait rehabilitation in a stroke unit – feasibility, functional benefits and patient experiences. Disability and Rehabilitation: Assistive Technology 17:4, pages 473-479.
Read now
W. Ben Mortenson, Alex Pysklywec, Leena Chau, Michael Prescott & Andrea Townson. (2022) Therapists’ experience of training and implementing an exoskeleton in a rehabilitation centre. Disability and Rehabilitation 44:7, pages 1060-1066.
Read now
Rocco Salvatore Calabrò, Luana Billeri, Fabrizio Ciappina, Tina Balletta, Bruno Porcari, Antonino Cannavò, Loris Pignolo, Alfredo Manuli & Antonino Naro. (2022) Toward improving functional recovery in spinal cord injury using robotics: a pilot study focusing on ankle rehabilitation. Expert Review of Medical Devices 19:1, pages 83-95.
Read now
Rosanne B. van Dijsseldonk, Hennie Rijken, Ilse J. W. van Nes, Henk van de Meent & Noël L. W. Keijsers. (2021) Predictors of exoskeleton motor learning in spinal cord injured patients. Disability and Rehabilitation 43:14, pages 1982-1988.
Read now
James Faulkner, Louis Martinelli, Kirsty Cook, Lee Stoner, Helen Ryan-Stewart, Eloise Paine, Helen Hobbs & Danielle Lambrick. (2021) Effects of robotic-assisted gait training on the central vascular health of individuals with spinal cord injury: A pilot study. The Journal of Spinal Cord Medicine 44:2, pages 299-305.
Read now
Hyuk-Jae Choi, Gyoo-Suk Kim, Jung Hoon Chai & Chang-Yong Ko. (2020) Effect of Gait Training Program with Mechanical Exoskeleton on Body Composition of Paraplegics. Journal of Multidisciplinary Healthcare 13, pages 1879-1886.
Read now
Chad Swank, Sattam Almutairi, Sharon Wang-Price & Fan Gao. (2020) Immediate kinematic and muscle activity changes after a single robotic exoskeleton walking session post-stroke. Topics in Stroke Rehabilitation 27:7, pages 503-515.
Read now
Chad Swank, Seema Sikka, Simon Driver, Monica Bennett & Librada Callender. (2020) Feasibility of integrating robotic exoskeleton gait training in inpatient rehabilitation. Disability and Rehabilitation: Assistive Technology 15:4, pages 409-417.
Read now
Marian G. Alvarez-Perez, Mario A. Garcia-Murillo & J. Jesús Cervantes-Sánchez. (2020) Robot-assisted ankle rehabilitation: a review. Disability and Rehabilitation: Assistive Technology 15:4, pages 394-408.
Read now
Nour Zleik, Frances Weaver, Robert L. Harmon, Brian Le, Reshmitha Radhakrishnan, Wanda D. Jirau-Rosaly, B. Catharine Craven, Mattie Raiford, Jennifer N. Hill, Bella Etingen, Marylou Guihan, Michael H. Heggeness, Cara Ray & Laura Carbone. (2019) Prevention and management of osteoporosis and osteoporotic fractures in persons with a spinal cord injury or disorder: A systematic scoping review. The Journal of Spinal Cord Medicine 42:6, pages 735-759.
Read now
Yukiyo Shimizu, Hideki Kadone, Shigeki Kubota, Kenji Suzuki, Kousaku Saotome, Tomoyuki Ueno, Tetsuya Abe, Aiki Marushima, Hiroki Watanabe, Ayumu Endo, Kazue Tsurumi, Ryu Ishimoto, Akira Matsushita, Masao Koda, Akira Matsumura, Yoshiyuki Sankai, Yasushi Hada & Masashi Yamazaki. (2019) Voluntary ambulation using voluntary upper limb muscle activity and Hybrid Assistive Limb® (HAL®) in a patient with complete paraplegia due to chronic spinal cord injury: A case report. The Journal of Spinal Cord Medicine 42:4, pages 460-468.
Read now
Dany H. Gagnon, Martin Vermette, Cyril Duclos, Mylène Aubertin-Leheudre, Sara Ahmed & Dahlia Kairy. (2019) Satisfaction and perceptions of long-term manual wheelchair users with a spinal cord injury upon completion of a locomotor training program with an overground robotic exoskeleton. Disability and Rehabilitation: Assistive Technology 14:2, pages 138-145.
Read now
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.
Read now
Yongtian He, David Eguren, Trieu Phat Luu & Jose L Contreras-Vidal. (2017) Risk management and regulations for lower limb medical exoskeletons: a review. Medical Devices: Evidence and Research 10, pages 89-107.
Read now
Laureen D. Hachem, Christopher S. Ahuja & Michael G. Fehlings. (2017) Assessment and management of acute spinal cord injury: From point of injury to rehabilitation. The Journal of Spinal Cord Medicine 40:6, pages 665-675.
Read now
Marcel P Dijkers, Katherine G Akers, Sujay S Galen, Diane E Patzer & Phuong T Vu. (2016) Letter to the editor regarding “Clinical effectiveness and safety of powered exoskeleton-assisted walking in patients with spinal cord injury: systematic review with meta-analysis”. Medical Devices: Evidence and Research 9, pages 419-421.
Read now
Larry E Miller & William G Herbert. (2016) Health and economic benefits of physical activity for patients with spinal cord injury. ClinicoEconomics and Outcomes Research 8, pages 551-558.
Read now
Erika Pinelli, Raffaele Zinno, Giuseppe Barone & Laura Bragonzoni. Barriers and facilitators to exoskeleton use in persons with spinal cord injury: a systematic review. Disability and Rehabilitation: Assistive Technology 0:0, pages 1-9.
Read now

Articles from other publishers (122)

Fumiya Kitayama, Ryou Kondo & Riku Endo. (2023) Proposal of strain wave gear actuated by magnetic force. International Journal of Applied Electromagnetics and Mechanics 71, pages S551-S560.
Crossref
Michelle van Mierlo, Jean A. Ormiston, Mark Vlutters, Edwin H. F. van Asseldonk & Herman van der Kooij. (2023) Pelvis perturbations in various directions while standing in staggered stance elicit concurrent responses in both the sagittal and frontal plane. PLOS ONE 18:4, pages e0272245.
Crossref
Ángel Gil-Agudo, Álvaro Megía-García, José Luis Pons, Isabel Sinovas-Alonso, Natalia Comino-Suárez, Vicente Lozano-Berrio & Antonio J. del-Ama. (2023) Exoskeleton-based training improves walking independence in incomplete spinal cord injury patients: results from a randomized controlled trial. Journal of NeuroEngineering and Rehabilitation 20:1.
Crossref
Celine Cuenot & Sophie Persine. (2023) Évolution de la posture orthostatique après lésion médullaire incomplète au cours d’une rééducation incluant la marche avec exosquelette, une étude de cas. Kinésithérapie, la Revue 23:255, pages 17.
Crossref
Christa M. Diot, Jessica L. Youngblood, Anya H. Friesen, Tammy Wong, Tyler A. Santos, Benjamin M. Norman, Kelly A. Larkin-Kaiser & Elizabeth G. Condliffe. (2023) Robot-Assisted Gait Training with Trexo Home: Users, Usage and Initial Impacts. Children 10:3, pages 437.
Crossref
Leah Morris, Richard S. Diteesawat, Nahian Rahman, Ailie Turton, Mary Cramp & Jonathan Rossiter. (2023) The-state-of-the-art of soft robotics to assist mobility: a review of physiotherapist and patient identified limitations of current lower-limb exoskeletons and the potential soft-robotic solutions. Journal of NeuroEngineering and Rehabilitation 20:1.
Crossref
Rachel L. Hybart & Daniel P. Ferris. (2023) Embodiment for Robotic Lower-Limb Exoskeletons: A Narrative Review. IEEE Transactions on Neural Systems and Rehabilitation Engineering 31, pages 657-668.
Crossref
Giulia Stampacchia, Valeria Gazzotti, Matteo Olivieri, Elisa Andrenelli, Donatella Bonaiuti, Rocco Salvatore Calabro, Simona Maria Carmignano, Anna Cassio, Cira Fundaro, Isabella Companini, David Mazzoli, Simona Cerulli, Carmelo Chisari, Valentina Colombo, Stefania Dalise, Daniele Mazzoleni, Corrado Melegari, Andrea Merlo, Paolo Boldrini, Stefano Mazzoleni, Federico Posteraro, Miriam Mazzucchelli, Paolo Benanti, Enrico Castelli, Francesco Draicchio, Vincenzo Falabella, Silvia Galeri, Francesca Gimigliano, Mauro Grigioni, Stefano Mazzon, Franco Molteni, Giovanni Morone, Maurizio Petrarca, Alessandro Picelli, Michele Senatore, Giuseppe Turchetti & Emiliana Bizzarrini. (2022) Gait robot-assisted rehabilitation in persons with spinal cord injury: A scoping review. NeuroRehabilitation 51:4, pages 609-647.
Crossref
Tristan Vouga, Jemina Fasola, Romain Baud, Ali Reza Manzoori, Julien Pache & Mohamed Bouri. (2022) TWIICE One powered exoskeleton: effect of design improvements on usability in daily life as measured by the performance in the CYBATHLON race. Journal of NeuroEngineering and Rehabilitation 19:1.
Crossref
David Putrino & John W. Krakauer. (2022) Neurotechnology’s Prospects for Bringing About Meaningful Reductions in Neurological Impairment. Neurorehabilitation and Neural Repair, pages 154596832211373.
Crossref
Mohammad Moein Pourmand, Hadi Tamimi, Seyyed Mahdi Sarfarazi, Iman Kardan & Alireza Akbarzadeh. (2022) Neural Network Extraction of the Crutch–Leg Synergy to Estimate the Intended Motion for Paraplegic users of Rehabilitation Exoskeletons. Neural Network Extraction of the Crutch–Leg Synergy to Estimate the Intended Motion for Paraplegic users of Rehabilitation Exoskeletons.
Carmen Delia Nistor-Cseppento, Anamaria Gherle, Nicoleta Negrut, Simona Gabriela Bungau, Anca Maria Sabau, Andrei-Flavius Radu, Alexa Florina Bungau, Delia Mirela Tit, Bogdan Uivaraseanu, Timea Claudia Ghitea & Diana Uivarosan. (2022) The Outcomes of Robotic Rehabilitation Assisted Devices Following Spinal Cord Injury and the Prevention of Secondary Associated Complications. Medicina 58:10, pages 1447.
Crossref
Kristen Hohl, Andrew C. Smith, Rebecca Macaluso, Matthew Giffhorn, Sara Prokup, Denise R. O’Dell, Lina Kleinschmidt, Jim M. Elliott & Arun Jayaraman. (2022) Muscle adaptations in acute SCI following overground exoskeleton + FES training: A pilot study. Frontiers in Rehabilitation Sciences 3.
Crossref
Jinan Charafeddine, Samer Alfayad, Adrian Olaru & Eric Dychus. 2022. Rehabilitation of the Human Bone-Muscle System. Rehabilitation of the Human Bone-Muscle System.
Renato Baptista, Francesco Salvaggio, Caterina Cavallo, Serena Pizzocaro, Svonko Galasso, Micaela Schmid & Alessandro Marco De Nunzio. (2022) Training-Induced Muscle Fatigue with a Powered Lower-Limb Exoskeleton: A Preliminary Study on Healthy Subjects. Medical Sciences 10:4, pages 55.
Crossref
Ricardo Ferreira, Rubim Santos & Andreia Sousa. 2022. Exploring the Convergence of Computer and Medical Science Through Cloud Healthcare. Exploring the Convergence of Computer and Medical Science Through Cloud Healthcare 163 196 .
Valerie A. Dietz, Nolan Roberts, Katelyn Knox, Sherilynne Moore, Michael Pitonak, Chris Barr, Jesus Centeno, Scott Leininger, Kent C. New, Peter Nowell, Matthew Rodreick, Cedric G. Geoffroy, Argyrios Stampas & Jennifer N. Dulin. (2022) Fighting for recovery on multiple fronts: The past, present, and future of clinical trials for spinal cord injury. Frontiers in Cellular Neuroscience 16.
Crossref
Christian Vassallo, Gaia Zinni, Stefano Maludrottu, Matteo Laffranchi & Lorenzo De Michieli. (2022) Stairs and ramps ascent and descent: how to design feasible gait patterns for a powered lower-limb exoskeleton. Stairs and ramps ascent and descent: how to design feasible gait patterns for a powered lower-limb exoskeleton.
Soha Saleh, Michael Glassen, Kamyar Momeni, Manikandan Ravi, Akhil Bheemreddy, Armand Hoxha, Erica Garbarini, Guang Yue & Gail Forrest. (2022) Corticomuscular Connectivity during Walking in Able Bodied and Individuals with Incomplete Spinal Cord Injury. Corticomuscular Connectivity during Walking in Able Bodied and Individuals with Incomplete Spinal Cord Injury.
Young-Hyeon Bae, Sung-Shin Kim, Anna Lee & Shirley S.M. Fong. (2022) Analysis of the Gait Characteristics and Usability after Wearable Exoskeleton Robot Gait Training in Incomplete Spinal Cord Injury Patients with Industrial Accidents: A Preliminary Study. Physical Therapy Rehabilitation Science 11:2, pages 235-244.
Crossref
Siyao Duan, Jialong Gao & Haochen Shuang. (2022) Design and simulation analysis of a human rehabilitation lower limb exoskeleton robot. Design and simulation analysis of a human rehabilitation lower limb exoskeleton robot.
Gianfranco Lamberti, Gianluca Sesenna, Qamil Paja & Gianluca Ciardi. (2022) Rehabilitation Program for Gait Training Using UAN.GO, a Powered Exoskeleton: A Case Report. Neurology International 14:2, pages 536-546.
Crossref
Ying Fang, Greg Orekhov & Zachary F. Lerner. (2022) Adaptive ankle exoskeleton gait training demonstrates acute neuromuscular and spatiotemporal benefits for individuals with cerebral palsy: A pilot study. Gait & Posture 95, pages 256-263.
Crossref
Kecheng Shi, Rui Huang, Fengjun Mu, Zhinan Peng, Ke Huang, Yizhe Qin, Xiao Yang & Hong Cheng. (2022) A Novel Multimodal Human-Exoskeleton Interface Based on EEG and sEMG Activity for Rehabilitation Training. A Novel Multimodal Human-Exoskeleton Interface Based on EEG and sEMG Activity for Rehabilitation Training.
Sijing Chen, Zhanbin Wang, Yongqiang Li, Jiashuai Tang, Xue Wang, Liping Huang, Zhuangwei Fang, Tao Xu, Jiang Xu, Feng Guo, Yizhao Wang, Jianjun Long, Xiaodong Wang, Fang Liu, Jianfeng Luo, Yulong Wang, Xiaolin Huang, Zishan Jia, Mei Shuai & Jianan Li. (2022) Safety and Feasibility of a Novel Exoskeleton for Locomotor Rehabilitation of Subjects With Spinal Cord Injury: A Prospective, Multi-Center, and Cross-Over Clinical Trial. Frontiers in Neurorobotics 16.
Crossref
Stuart Stokes, Martin Drozda & Christopher Lee. (2022) The past, present, and future of traumatic spinal cord injury therapies: a review. Bone & Joint Open 3:5, pages 348-358.
Crossref
Lingjie Zhang, Fabin Lin, Lei Sun & Chunmei Chen. (2022) Comparison of Efficacy of Lokomat and Wearable Exoskeleton-Assisted Gait Training in People With Spinal Cord Injury: A Systematic Review and Network Meta-Analysis. Frontiers in Neurology 13.
Crossref
Maria Grazia Maggio, Antonino Naro, Rosaria De Luca, Desiree Latella, Tina Balletta, Lory Caccamo, Giovanni Pioggia, Daniele Bruschetta & Rocco Salvatore Calabrò. (2022) Body Representation in Patients with Severe Spinal Cord Injury: A Pilot Study on the Promising Role of Powered Exoskeleton for Gait Training. Journal of Personalized Medicine 12:4, pages 619.
Crossref
Christopher C. H. Yip, Chor-Yin Lam, Kenneth M. C. Cheung, Yat Wa Wong & Paul A. Koljonen. (2022) Knowledge Gaps in Biophysical Changes After Powered Robotic Exoskeleton Walking by Individuals With Spinal Cord Injury—A Scoping Review. Frontiers in Neurology 13.
Crossref
Giuseppe Forte, Erik Leemhuis, Francesca Favieri, Maria Casagrande, Anna Maria Giannini, Luigi De Gennaro & Mariella Pazzaglia. (2022) Exoskeletons for Mobility after Spinal Cord Injury: A Personalized Embodied Approach. Journal of Personalized Medicine 12:3, pages 380.
Crossref
Jan Mehrholz & Bernhard Elsner. (2022) Exoskelette und Gehtraining. neuroreha 14:01, pages 20-26.
Crossref
Soichiro Koyama, Shigeo Tanabe, Takeshi Gotoh, Yuta Taguchi, Masaki Katoh, Eiichi Saitoh, Yohei Otaka & Satoshi Hirano. (2022) Wearable Power-Assist Locomotor for Gait Reconstruction in Patients With Spinal Cord Injury: A Retrospective Study. Frontiers in Neurorobotics 16.
Crossref
Nathaniel S. Makowski, Marshaun N. Fitzpatrick, Ronald J. Triolo, Ryan-David Reyes, Roger D. Quinn & Musa Audu. (2022) Biologically Inspired Optimal Terminal Iterative Learning Control for the Swing Phase of Gait in a Hybrid Neuroprosthesis: A Modeling Study. Bioengineering 9:2, pages 71.
Crossref
Jong-Won Lee, Juhwan Bae, Hyuk-Jae Choi, Chilyong Kwon, Yoon Heo, Hyeonseok Cho & Gyoosuk Kim. (2022) Effect of Reciprocating Gait Orthosis with Hip Actuation on Upper Extremity Loading during Ambulation in Patient with Spinal Cord Injury: A Single Case Study. Machines 10:2, pages 108.
Crossref
Tommy W. Sutor, Mina P. Ghatas, Lance L. Goetz, Timothy D. Lavis & Ashraf S. Gorgey. (2022) Exoskeleton Training and Trans-Spinal Stimulation for Physical Activity Enhancement After Spinal Cord Injury (EXTra-SCI): An Exploratory Study. Frontiers in Rehabilitation Sciences 2.
Crossref
Megan E Mancuso, Andrew R Wilzman, Kyle E Murdock & Karen L Troy. (2022) Effect of external mechanical stimuli on human bone: a narrative review. Progress in Biomedical Engineering 4:1, pages 012006.
Crossref
Funda Ertas-Spantgar, Merle Leopold & Sandra Verena Müller. 2022. Assistive Technologien im Sozial- und Gesundheitssektor. Assistive Technologien im Sozial- und Gesundheitssektor 245 267 .
Dmitrii Kolpashchikov, Olga Gerget & Roman Meshcheryakov. 2022. Handbook of Artificial Intelligence in Healthcare. Handbook of Artificial Intelligence in Healthcare 281 306 .
A. Megía-García, A. J. del-Ama, V. Lozano-Berrio, I. Sinovas-Alonso, N. Comino-Suárez & A. Gil-Agudo. 2022. Converging Clinical and Engineering Research on Neurorehabilitation IV. Converging Clinical and Engineering Research on Neurorehabilitation IV 935 939 .
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, Ryan-David Reyes, Massimo Sartori, Surjo Soekadar, Ronald J. Triolo, Mareike Vermehren, Christian Wenger, Utku S. Yavuz, Dietmar Fey & Philipp Beckerle. (2021) Adaptation Strategies for Personalized Gait Neuroprosthetics. Frontiers in Neurorobotics 15.
Crossref
Nicola Postol, Neil J. Spratt, Andrew Bivard & Jodie Marquez. (2021) Physiotherapy using a free-standing robotic exoskeleton for patients with spinal cord injury: a feasibility study. Journal of NeuroEngineering and Rehabilitation 18:1.
Crossref
Antonio Rodríguez-Fernández, Joan Lobo-Prat & Josep M. Font-Llagunes. (2021) Systematic review on wearable lower-limb exoskeletons for gait training in neuromuscular impairments. Journal of NeuroEngineering and Rehabilitation 18:1.
Crossref
S M Shafiul Hasan & Ou Bai. (2021) VMD-WSST: A Combined BCI Algorithm to Predict Self-paced Gait Intention. VMD-WSST: A Combined BCI Algorithm to Predict Self-paced Gait Intention.
Sandra K. Hnat, Musa L. Audu, Ronald J. Triolo & Roger D. Quinn. (2021) Estimating Center of Mass Kinematics During Perturbed Human Standing Using Accelerometers. Journal of Applied Biomechanics 37:5, pages 415-424.
Crossref
Chaobin Zou, Rui Huang, Zhinan Peng, Jing Qiu & Hong Cheng. (2021) Synergetic Gait Prediction for Stroke Rehabilitation with Varying Walking Speeds. Synergetic Gait Prediction for Stroke Rehabilitation with Varying Walking Speeds.
Jae Hyeon Park, Hyeon Seong Kim, Seong Ho Jang, Dong Jin Hyun, Sang In Park, JuYoung Yoon, Hyunseop Lim & Mi Jung Kim. (2021) Cardiorespiratory Responses to 10 Weeks of Exoskeleton-Assisted Overground Walking Training in Chronic Nonambulatory Patients with Spinal Cord Injury. Sensors 21:15, pages 5022.
Crossref
Paul Aarne Koljonen, Anna Sternin Virk, Yoon Jeong, Michael McKinley, Juan Latorre, Amaya Caballero, Yong Hu, Yat Wa Wong, Kenneth Cheung & Homayoon Kazerooni. (2021) Outcomes of a Multicenter Safety and Efficacy Study of the SuitX Phoenix Powered Exoskeleton for Ambulation by Patients With Spinal Cord Injury. Frontiers in Neurology 12.
Crossref
Siddharth Bhardwaj, Abid Ali Khan & Mohammad Muzammil. (2021) Lower limb rehabilitation robotics: The current understanding and technology. Work 69:3, pages 775-793.
Crossref
Alexandr I. Romanov, Victor A. Stupin & Ekaterina V. Silina. (2021) Perspectives and value of external control devices (exoskeletons) for effective rehabilitation of patients with impaired motor function. HEALTH CARE OF THE RUSSIAN FEDERATION 65:3, pages 287-294.
Crossref
Justine Berson, Patrick Nenert & Arnaud Choplin. (2021) La place des exosquelettes d’assistance dans le quotidien des personnes blessées médullaires. Kinésithérapie, la Revue 21:235, pages 20-26.
Crossref
Marco Ghidelli, Pietro Padovani, David Pinto-Fernandez, Simone Pasinetti, Antonio J. del-Ama, Diego Torricelli & Matteo Lancini. (2021) Instrumented crutches with audio feedback to alter assisted gait. Instrumented crutches with audio feedback to alter assisted gait.
Joel Bottin-Noonan & Manish Sreenivasa. (2021) Model based evaluation of human and lower-limb exoskeleton interaction during sit to stand motion. Model based evaluation of human and lower-limb exoskeleton interaction during sit to stand motion.
Diego Incontri-Abraham & José Juan Antonio Ibarra Arias. 2021. Paraplegia. Paraplegia.
Koki Tan, Soichiro Koyama, Hiroaki Sakurai, Toshio Teranishi, Yoshikiyo Kanada & Shigeo Tanabe. (2021) Wearable robotic exoskeleton for gait reconstruction in patients with spinal cord injury: A literature review. Journal of Orthopaedic Translation 28, pages 55-64.
Crossref
Xu He, Shuhui Lin, Lidan Yang, Pingjuan Tan, Pengfei Ma, Peng Qiu, Can Zheng, Xin Zhang, Wenzheng Kang & Wenping Lin. (2021) Programmed death protein 1 is essential for maintaining the anti-inflammatory function of infiltrating regulatory T cells in a murine spinal cord injury model. Journal of Neuroimmunology 354, pages 577546.
Crossref
Yue Ma, Xinyu Wu, Simon X. Yang, Chen Dang, Du-Xin Liu, Chao Wang, Can Wang & Chunjie Chen. (2021) Online Gait Planning of Lower-Limb Exoskeleton Robot for Paraplegic Rehabilitation Considering Weight Transfer Process. IEEE Transactions on Automation Science and Engineering 18:2, pages 414-425.
Crossref
Mohammadhadi Sarajchi, Mohamad Kenan Al-Hares & Konstantinos Sirlantzis. (2021) Wearable Lower-Limb Exoskeleton for Children With Cerebral Palsy: A Systematic Review of Mechanical Design, Actuation Type, Control Strategy, and Clinical Evaluation. IEEE Transactions on Neural Systems and Rehabilitation Engineering 29, pages 2695-2720.
Crossref
Chaobin Zou, Rui Huang, Hong Cheng & Jing Qiu. (2021) Learning Gait Models With Varying Walking Speeds. IEEE Robotics and Automation Letters 6:1, pages 183-190.
Crossref
Jaehwan Park, Seunghan Park, Chankyu Kim, Jong Hyeon Park & Junho Choi. (2021) Design and Control of a Powered Lower Limb Orthosis Using a Cable-Differential Mechanism, COWALK-Mobile 2. IEEE Access 9, pages 43775-43784.
Crossref
Míriam Febrer-Nafría, Roger Pallarès-López, Benjamin J. Fregly & Josep M. Font-Llagunes. (2020) Prediction of three-dimensional crutch walking patterns using a torque-driven model. Multibody System Dynamics 51:1, pages 1-19.
Crossref
Maria Andreevna Gvozdareva, Elena Vladimirovna Chesheva, Aleksandr Gennadyevich Samokhin, Evgenia Vitalievna Kudrova, Georgy Olegovich Drozdov, Vladimir Ivanovich Shevtsov & Nina Petrovna Kareva. (2020) Evaluation of the effectiveness and safety of exoskeleton in rehabilitation programs for patients with spinal cord injury. Hirurgiâ pozvonočnika (Spine Surgery) 17:4, pages 68-76.
Crossref
Javier A. de la Tejera, Rogelio Bustamante-Bello, Ricardo A. Ramirez-Mendoza & Javier Izquierdo-Reyes. (2020) Systematic Review of Exoskeletons towards a General Categorization Model Proposal. Applied Sciences 11:1, pages 76.
Crossref
Yoon Heo, Hyuk-Jae Choi, Seok-Jin Hwang, Jong-Won Lee, Chil-Yong Kwon, Hyeon-Seok Cho & Gyoo-Suk Kim. (2020) Development of a Knee Actuated Exoskeletal Gait Orthosis for Paraplegic Patients with Incomplete Spinal Cord Injury: A Single Case Study. Applied Sciences 11:1, pages 58.
Crossref
Ryan-David Reyes, Rudolf Kobetic, Mark Nandor, Nathaniel Makowski, Musa Audu, Roger Quinn & Ronald Triolo. (2020) Effect of Joint Friction Compensation on a “Muscle-First” Motor-Assisted Hybrid Neuroprosthesis. Frontiers in Neurorobotics 14.
Crossref
Arvind Ramanujam, Kamyar Momeni, Manikandan Ravi, Jonathan Augustine, Erica Garbarini, Peter Barrance, Ann M. Spungen, Pierre Asselin, Steven Knezevic & Gail F. Forrest. (2020) Dynamic Margins of Stability During Robot-Assisted Walking in Able-Bodied Individuals: A Preliminary Study. Frontiers in Robotics and AI 7.
Crossref
Ziyuan Yu, Hongru Li, Peng Xia, Weijian Kong, Yuxin Chang, Chuan Fu, Kai Wang, Xiaoyu Yang & Zhiping Qi. (2020) Application of fibrin-based hydrogels for nerve protection and regeneration after spinal cord injury. Journal of Biological Engineering 14:1.
Crossref
Dominique Kinnett-Hopkins, Chaithanya K. Mummidisetty, Linda Ehrlich-Jones, Deborah Crown, Rachel A. Bond, Marc H. Applebaum, Arun Jayaraman, Catherine Furbish, Gail Forrest, Edelle Field-Fote & Allen W. Heinemann. (2020) Users with spinal cord injury experience of robotic Locomotor exoskeletons: a qualitative study of the benefits, limitations, and recommendations. Journal of NeuroEngineering and Rehabilitation 17:1.
Crossref
Ho Seon Choi, Chang Hee Lee & Yoon Su Baek. (2020) Design and Validation of a Two-Degree-of-Freedom Powered Ankle-Foot Orthosis with Two Pneumatic Artificial Muscles. Mechatronics 72, pages 102469.
Crossref
V. Costa, O. Ramirez, J.S. Lora-Millan, E. Urendes, E. Rocon, L. Perea & R. Raya. (2020) Design of a robotic platform for hip fracture rehabilitation in elderly people. Design of a robotic platform for hip fracture rehabilitation in elderly people.
Karen J. Nolan, Kiran K. Karunakaran, Kathleen Chervin, Michael R. Monfett, Radhika K. Bapineedu, Neil N. Jasey & Mooyeon Oh-Park. (2020) Robotic Exoskeleton Gait Training During Acute Stroke Inpatient Rehabilitation. Frontiers in Neurorobotics 14.
Crossref
Alec Bass, Mylène Aubertin-Leheudre, Claude Vincent, Antony D Karelis, Suzanne N Morin, Michelle McKerral, Cyril Duclos & Dany H Gagnon. (2020) Effects of an Overground Walking Program With a Robotic Exoskeleton on Long-Term Manual Wheelchair Users With a Chronic Spinal Cord Injury: Protocol for a Self-Controlled Interventional Study. JMIR Research Protocols 9:9, pages e19251.
Crossref
Rosanne B. van Dijsseldonk, Ilse J. W. van Nes, Alexander C. H. Geurts & Noël L. W. Keijsers. (2020) Exoskeleton home and community use in people with complete spinal cord injury. Scientific Reports 10:1.
Crossref
Alice J. Hon & Perri Kraus. (2020) Spasticity Management After Spinal Cord Injury. Current Physical Medicine and Rehabilitation Reports 8:3, pages 159-171.
Crossref
Rakel Berriozabalgoitia, Begoña Sanz, Ana Belén Fraile-Bermúdez, Erika Otxoa, Izaskun Yeregui, Iraia Bidaurrazaga-Letona, Iratxe Duñabeitia, Alfredo Antigüedad, Maria Domercq, Jon Irazusta & Ana Rodriguez-Larrad. (2020) An Overground Robotic Gait Training Program for People With Multiple Sclerosis: A Protocol for a Randomized Clinical Trial. Frontiers in Medicine 7.
Crossref
Tian-miao Wang, Xuan Pei, Tao-gang Hou, Yu-bo Fan, Xuan Yang, Hugh M. Herr & Xing-bang Yang. (2020) An untethered cable-driven ankle exoskeleton with plantarflexion-dorsiflexion bidirectional movement assistance. Frontiers of Information Technology & Electronic Engineering 21:5, pages 723-739.
Crossref
Ana Cecilia Villa-Parra, Jessica Lima, Denis Delisle-Rodriguez, Laura Vargas-Valencia, Anselmo Frizera-Neto & Teodiano Bastos. (2020) Assessment of an Assistive Control Approach Applied in an Active Knee Orthosis Plus Walker for Post-Stroke Gait Rehabilitation. Sensors 20:9, pages 2452.
Crossref
N.N. Karjakin, A.N. Belova, V.O. Sushin, G.E. Sheiko, Y.A. Israeljan & N.Y. Litvinova. (2020) Potential benefits and limitations of robotic exoskeleton usage in patients with spinal cord injury: a review. Bulletin of Restorative Medicine 96:2, pages 68-78.
Crossref
Xianglong Wan, Yi Liu, Yasuhiro Akiyama & Yoji Yamada. (2020) Monitoring Contact Behavior During Assisted Walking With a Lower Limb Exoskeleton. IEEE Transactions on Neural Systems and Rehabilitation Engineering 28:4, pages 869-877.
Crossref
Emily Read, Cora Woolsey, Chris A. McGibbon & Colleen O’Connell. (2020) Physiotherapists’ Experiences Using the Ekso Bionic Exoskeleton with Patients in a Neurological Rehabilitation Hospital: A Qualitative Study. Rehabilitation Research and Practice 2020, pages 1-8.
Crossref
Yinbo Li, Xinyu Guan, Xinyu Han, Zihan Tang, Kuilin Meng, Zhanpeng Shi, Bernhard Penzlin, Yilin Yang, Junli Ren, Ze Yang, Zhibin Li, Steffen Leonhardt & Linhong Ji. (2020) Design and Preliminary Validation of a Lower Limb Exoskeleton With Compact and Modular Actuation. IEEE Access 8, pages 66338-66352.
Crossref
Shunki Itadera, Jun Nakanishi, Yasuhisa Hasegawa, Toshio Fukuda, Masanori Tanimoto & Izumi Kondo. (2020) Admittance control based robotic clinical gait training with physiological cost evaluation. Robotics and Autonomous Systems 123, pages 103326.
Crossref
Kyle McIntosh, Rebecca Charbonneau, Yassine Bensaada, Urchit Bhatiya & Chester Ho. (2020) The Safety and Feasibility of Exoskeletal-Assisted Walking in Acute Rehabilitation After Spinal Cord Injury. Archives of Physical Medicine and Rehabilitation 101:1, pages 113-120.
Crossref
Ethan A. Hood, Kevin K. Chui & Michelle M. Lusardi. 2020. Orthotics and Prosthetics in Rehabilitation. Orthotics and Prosthetics in Rehabilitation 14 37 .
F. H. M. van Herpen, R. B. van Dijsseldonk, H. Rijken, N. L. W. Keijsers, J. W. K. Louwerens & I. J. W. van Nes. (2019) Case Report: Description of two fractures during the use of a powered exoskeleton. Spinal Cord Series and Cases 5:1.
Crossref
Guanjun Bao, Lufeng Pan, Hui Fang, Xinyu Wu, Haoyong Yu, Shibo Cai, Bingqing Yu & Yuehua Wan. (2019) Academic Review and Perspectives on Robotic Exoskeletons. IEEE Transactions on Neural Systems and Rehabilitation Engineering 27:11, pages 2294-2304.
Crossref
Tunc Akbas & James Sulzer. (2019) Musculoskeletal simulation framework for impairment-based exoskeletal assistance post-stroke. Musculoskeletal simulation framework for impairment-based exoskeletal assistance post-stroke.
Jan T. Meyer, Stefan O. Schrade, Olivier Lambercy & Roger Gassert. (2019) User-centered Design and Evaluation of Physical Interfaces for an Exoskeleton for Paraplegic Users. User-centered Design and Evaluation of Physical Interfaces for an Exoskeleton for Paraplegic Users.
Roland Auberger, Robert Riener, Michael Friedrich Russold & Hans Dietl. (2019) Energy Recuperation at the Hip Joint for Paraplegic Walking: Interaction Between Patient and Supportive Device. Energy Recuperation at the Hip Joint for Paraplegic Walking: Interaction Between Patient and Supportive Device.
Eleonora Guanziroli, Maurizio Cazzaniga, Laura Colombo, Sabrina Basilico, Giovanni Legnani & Franco Molteni. (2019) Assistive powered exoskeleton for complete spinal cord injury: correlations between walking ability and exoskeleton control. European Journal of Physical and Rehabilitation Medicine 55:2.
Crossref
Roland Auberger, Michael Friedrich Russold, Robert Riener & Hans Dietl. (2019) Patient Motion Using a Computerized Leg Brace in Everyday Locomotion Tasks. IEEE Transactions on Medical Robotics and Bionics 1:2, pages 106-114.
Crossref
Chaobin Zou, Rui Huang, Hong Cheng, Qiming Chen & Jing Qiu. (2019) Adaptive Gait Planning for Walking Assistance Lower Limb Exoskeletons in Slope Scenarios. Adaptive Gait Planning for Walking Assistance Lower Limb Exoskeletons in Slope Scenarios.
Konstantinos Sirlantzis, Layla Bashir Larsen, Lakshmi Krisha Kanumuru & Paul Oprea. 2019. Handbook of Electronic Assistive Technology. Handbook of Electronic Assistive Technology 311 345 .
David Hollar. 2019. Advances in Exercise and Health for People With Mobility Limitations. Advances in Exercise and Health for People With Mobility Limitations 79 99 .
Stefan O. Schrade, Katrin Dätwyler, Marius Stücheli, Kathrin Studer, Daniel-Alexander Türk, Mirko Meboldt, Roger Gassert & Olivier Lambercy. (2018) Development of VariLeg, an exoskeleton with variable stiffness actuation: first results and user evaluation from the CYBATHLON 2016. Journal of NeuroEngineering and Rehabilitation 15:1.
Crossref
Roee Keren & Yizhar Or. (2018) Theoretical Analysis and Numerical Optimization of a Wearable Spring-Clutch Mechanism for Reducing Metabolic Energy Cost During Human Walking. Journal of Mechanisms and Robotics 10:6.
Crossref
Hui-Fen Mao, Hsing-Po Huang, Tung-Wu Lu, Ting-Ming Wang, Cheng-Hua Wu & Jwu-Sheng Hu. (2018) Balance Control and Energetics of Powered Exoskeleton-Assisted Sit-to-Stand Movement in Individuals With Paraplegic Spinal Cord Injury. Archives of Physical Medicine and Rehabilitation 99:10, pages 1982-1990.
Crossref
Ashraf S Gorgey. (2018) Robotic exoskeletons: The current pros and cons. World Journal of Orthopedics 9:9, pages 112-119.
Crossref
Véronique Lajeunesse, François Routhier, Claude Vincent, Josiane Lettre & François Michaud. (2018) Perspectives of individuals with incomplete spinal cord injury concerning the usability of lower limb exoskeletons: An exploratory study. Technology and Disability 30:1-2, pages 63-76.
Crossref
Patrizio Sale, Emanuele F. Russo, Alessandra Scarton, Rocco S. Calabrò, Stefano Masiero & Serena Filoni. (2018) Training for mobility with exoskeleton robot in spinal cord injury patients: a pilot study. European Journal of Physical and Rehabilitation Medicine 54:5.
Crossref
Manuel J. Escalona, Rachel Brosseau, Martin Vermette, Alain Steve Comtois, Cyril Duclos, Mylène Aubertin-Leheudre & Dany H. Gagnon. (2018) Cardiorespiratory demand and rate of perceived exertion during overground walking with a robotic exoskeleton in long-term manual wheelchair users with chronic spinal cord injury: A cross-sectional study. Annals of Physical and Rehabilitation Medicine 61:4, pages 215-223.
Crossref
Rachel A. Scott, Michele L. Callisaya, Gustavo Duque, Peter R. Ebeling & David Scott. (2018) Assistive technologies to overcome sarcopenia in ageing. Maturitas 112, pages 78-84.
Crossref
Robert M. Lester & Ashraf S. Gorgey. (2018) Feasibility of robotic exoskeleton ambulation in a C4 person with incomplete spinal cord injury: a case report. Spinal Cord Series and Cases 4:1.
Crossref
Niclas Braun, Stefan Debener, Nadine Spychala, Edith Bongartz, Peter Sörös, Helge H. O. Müller & Alexandra Philipsen. (2018) The Senses of Agency and Ownership: A Review. Frontiers in Psychology 9.
Crossref
Yongtian He, David Eguren, José M Azorín, Robert G Grossman, Trieu Phat Luu & Jose L Contreras-Vidal. (2018) Brain–machine interfaces for controlling lower-limb powered robotic systems. Journal of Neural Engineering 15:2, pages 021004.
Crossref
Luciano Bissolotti, Federico Nicoli & Mario Picozzi. (2018) Domestic Use of the Exoskeleton for Gait Training in Patients with Spinal Cord Injuries: Ethical Dilemmas in Clinical Practice. Frontiers in Neuroscience 12.
Crossref
C-Yoon Kim, WilliamK.A. Sikkema, Jin Kim, JeongAh Kim, James Walter, Raymond Dieter, Hyung-Min Chung, Andrea Mana, JamesM Tour & Sergio Canavero. (2018) Effect of Graphene Nanoribbons (TexasPEG) on locomotor function recovery in a rat model of lumbar spinal cord transection. Neural Regeneration Research 13:8, pages 1440.
Crossref
Masakazu Taketomi, Yukiyo Shimizu, Hideki Kadone, Shigeki Kubota, Tetsuya Abe, Aiki Marushima, Tomoyuki Ueno, Ayumu Endo, Hiroaki Kawamoto, Akira Matsumura, Yoshiyuki Sankai, Yasushi Hada & Masashi Yamazaki. (2018) Hybrid Assistive Limb Intervention in a Patient with Late Neurological Deterioration after Thoracic Myelopathy Surgery due to Ossification of the Ligamentum Flavum. Case Reports in Orthopedics 2018, pages 1-10.
Crossref
Juan C. Moreno, Joana Figueiredo & José L. Pons. 2018. Rehabilitation Robotics. Rehabilitation Robotics 89 99 .
Luciano Bissolotti, Paola Zuccher, Andrea Zenorini, Sonia Chiari, Paolo Gaffurini, Armando Pasini & Federico Nicoli. 2018. Advances in Service and Industrial Robotics. Advances in Service and Industrial Robotics 759 765 .
Rosanne B. van Dijsseldonk, Hennie Rijken, Ilse J. W. van Nes, Henk van de Meent & Noel L. W. Keijsers. (2017) A Framework for Measuring the Progress in Exoskeleton Skills in People with Complete Spinal Cord Injury. Frontiers in Neuroscience 11.
Crossref
Yukiyo Shimizu, Hideki Kadone, Shigeki Kubota, Kenji Suzuki, Tetsuya Abe, Tomoyuki Ueno, Yuichiro Soma, Yoshiyuki Sankai, Yasushi Hada & Masashi Yamazaki. (2017) Voluntary Ambulation by Upper Limb-Triggered HAL® in Patients with Complete Quadri/Paraplegia Due to Chronic Spinal Cord Injury. Frontiers in Neuroscience 11.
Crossref
Yongtian He, David Eguren, Trieu Phat Luu & Jose L. Contreras-Vidal. (2017) Risk and adverse events related to lower-limb exoskeletons. Risk and adverse events related to lower-limb exoskeletons.
S. K. Gadi, A. Osorio -Cordero, Rogelio Lozano & R. Garrido. (2017) Human Adaptation Towards a Force Augmenting Device: Experimental Results. Journal of Applied Science & Process Engineering 4:2, pages 205-212.
Crossref
Karen Sui Geok Chua & Christopher Wee Keong Kuah. (2017) Innovating With Rehabilitation Technology in the Real World. American Journal of Physical Medicine & Rehabilitation 96:10, pages S150-S156.
Crossref
Sarah R. Chang, Rudi Kobetic & Ronald J. Triolo. (2017) Effect of exoskeletal joint constraint and passive resistance on metabolic energy expenditure: Implications for walking in paraplegia. PLOS ONE 12:8, pages e0183125.
Crossref
Shuai Ren, Ze-Han Liu, Qiong Wu, Kuang Fu, Jun Wu, Li-Ting Hou, Ming Li, Xin Zhao, Qing Miao, Yun-Long Zhao, Sheng-Yu Wang, Yan Xue, Zhen Xue, Ya-Shan Guo, Sergio Canavero & Xiao-Ping Ren. (2017) Polyethylene glycol-induced motor recovery after total spinal transection in rats. CNS Neuroscience & Therapeutics 23:8, pages 680-685.
Crossref
Anne E. Palermo, Jennifer L. Maher, Carsten Bach Baunsgaard & Mark S. Nash. (2017) Clinician-Focused Overview of Bionic Exoskeleton Use After Spinal Cord Injury. Topics in Spinal Cord Injury Rehabilitation 23:3, pages 234-244.
Crossref
Ashraf S. Gorgey, Rodney Wade, Ryan Sumrell, Lynette Villadelgado, Refka E. Khalil & Timothy Lavis. (2017) Exoskeleton Training May Improve Level of Physical Activity After Spinal Cord Injury: A Case Series. Topics in Spinal Cord Injury Rehabilitation 23:3, pages 245-255.
Crossref
Deborah Hill, Catherine Sarah Holloway, Dafne Zuleima Morgado Ramirez, Peter Smitham & Yannis Pappas. (2017) WHAT ARE USER PERSPECTIVES OF EXOSKELETON TECHNOLOGY? A LITERATURE REVIEW. International Journal of Technology Assessment in Health Care 33:2, pages 160-167.
Crossref
Kevin J. O'Donovan. (2016) Intrinsic Axonal Growth and the Drive for Regeneration. Frontiers in Neuroscience 10.
Crossref
S. Mazzoleni, E. Battini, M. Dini, S. Corbianco, A. Gerini & G. Stampacchia. (2016) Physical and cognitive effort during robotic exoskeleton assisted walking on treadmill and overground in SCI persons. Gait & Posture 49, pages S24-S25.
Crossref
Thomas Platz, Annett Gillner, Nicole Borgwaldt, Sylvia Kroll & Sybille Roschka. (2016) Device-Training for Individuals with Thoracic and Lumbar Spinal Cord Injury Using a Powered Exoskeleton for Technically Assisted Mobility: Achievements and User Satisfaction. BioMed Research International 2016, pages 1-10.
Crossref

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.