Published on 15.05.18 in Vol 5, No 1 (2018): Jan-Jun
Works citing "Perceptions of Existing Wearable Robotic Devices for Upper Extremity and Suggestions for Their Development: Findings From Therapists and People With Stroke"
According to Crossref, the following articles are citing this article (DOI 10.2196/rehab.9535):
(note that this is only a small subset of citations)
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Nanda S, Mahapatra S, Lindeen SA, Bernau JL, Cutshall SM, Schierwater B, Chon TY, Wahner-Roedler DL, Bauer BA. Evaluation of a Novel Wellness Assessment Device (Preventiometer): A Feasibility Pilot Study. Global Advances in Health and Medicine 2019;8:216495611988109
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Howard J, Fisher Z, Kemp AH, Lindsay S, Tasker LH, Tree JJ. Exploring the barriers to using assistive technology for individuals with chronic conditions: a meta-synthesis review. Disability and Rehabilitation: Assistive Technology 2022;17(4):390
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Louie DR, Bird M, Menon C, Eng JJ. Perspectives on the prospective development of stroke-specific lower extremity wearable monitoring technology: a qualitative focus group study with physical therapists and individuals with stroke. Journal of NeuroEngineering and Rehabilitation 2020;17(1)
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Proulx CE, Higgins J, Gagnon DH. Occupational therapists’ evaluation of the perceived usability and utility of wearable soft robotic exoskeleton gloves for hand function rehabilitation following a stroke. Disability and Rehabilitation: Assistive Technology 2023;18(6):953
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Simpson LA, Menon C, Hodgson AJ, Ben Mortenson W, Eng JJ. Clinicians’ perceptions of a potential wearable device for capturing upper limb activity post-stroke: a qualitative focus group study. Journal of NeuroEngineering and Rehabilitation 2021;18(1)
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Jovanovic LI, Jervis Rademeyer H, Pakosh M, Musselman KE, Popovic MR, Marquez-Chin C. Scoping Review on Brain-Computer Interface–Controlled Electrical Stimulation Interventions for Upper Limb Rehabilitation in Adults: A Look at Participants, Interventions, and Technology. Physiotherapy Canada 2023;75(3):276
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Toh SFM, Gonzalez PC, Fong KNK. Usability of a wearable device for home-based upper limb telerehabilitation in persons with stroke: A mixed-methods study. DIGITAL HEALTH 2023;9:205520762311537
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Seim CE, Ritter B, Starner TE, Flavin K, Lansberg MG, Okamura AM. Design of a Wearable Vibrotactile Stimulation Device for Individuals With Upper-Limb Hemiparesis and Spasticity. IEEE Transactions on Neural Systems and Rehabilitation Engineering 2022;30:1277
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Laparidou D, Curtis F, Akanuwe J, Goher K, Niroshan Siriwardena A, Kucukyilmaz A. Patient, carer, and staff perceptions of robotics in motor rehabilitation: a systematic review and qualitative meta-synthesis. Journal of NeuroEngineering and Rehabilitation 2021;18(1)
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Fazeli HR, Peng Q. Generation and evaluation of product concepts by integrating extended axiomatic design, quality function deployment and design structure matrix. Advanced Engineering Informatics 2022;54:101716
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Langerak AJ, Regterschot GRH, Selles RW, Meskers CGM, Evers M, Ribbers GM, van Beijnum BJF, Bussmann JBJ. Requirements for home-based upper extremity rehabilitation using wearable motion sensors for stroke patients: a user-centred approach. Disability and Rehabilitation: Assistive Technology 2023;:1
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Forbrigger S, Liblong M, Davies T, DePaul V, Morin E, Hashtrudi-Zaad K. Considerations for at-home upper-limb rehabilitation technology following stroke: Perspectives of stroke survivors and therapists. Journal of Rehabilitation and Assistive Technologies Engineering 2023;10:205566832311718
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Yang C, Chui R, Mortenson WB, Servati P, Servati A, Tashakori A, Eng JJ. Perspectives of users for a future interactive wearable system for upper extremity rehabilitation following stroke: a qualitative study. Journal of NeuroEngineering and Rehabilitation 2023;20(1)
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According to Crossref, the following books are citing this article (DOI 10.2196/rehab.9535):