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2020 7
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Page 1
Computerized Cuff Pressure Algometry as Guidance for Circumferential Tissue Compression for Wearable Soft Robotic Applications: A Systematic Review.
Kermavnar T, Power V, de Eyto A, O'Sullivan LW. Kermavnar T, et al. Among authors: de eyto a. Soft Robot. 2018 Feb;5(1):1-16. doi: 10.1089/soro.2017.0046. Epub 2017 Oct 13. Soft Robot. 2018. PMID: 29412078 Review.
Cuff Pressure Algometry in Patients with Chronic Pain as Guidance for Circumferential Tissue Compression for Wearable Soft Exoskeletons: A Systematic Review.
Kermavnar T, Power V, de Eyto A, O'Sullivan L. Kermavnar T, et al. Among authors: de eyto a. Soft Robot. 2018 Oct;5(5):497-511. doi: 10.1089/soro.2017.0088. Epub 2018 Jun 29. Soft Robot. 2018. PMID: 29957130
Exoscore: A Design Tool to Evaluate Factors Associated With Technology Acceptance of Soft Lower Limb Exosuits by Older Adults.
Shore L, Power V, Hartigan B, Schülein S, Graf E, de Eyto A, O'Sullivan L. Shore L, et al. Among authors: de eyto a. Hum Factors. 2020 May;62(3):391-410. doi: 10.1177/0018720819868122. Epub 2019 Aug 16. Hum Factors. 2020. PMID: 31419179
Pneumatic Quasi-Passive Actuation for Soft Assistive Lower Limbs Exoskeleton.
Di Natali C, Sadeghi A, Mondini A, Bottenberg E, Hartigan B, De Eyto A, O'Sullivan L, Rocon E, Stadler K, Mazzolai B, Caldwell DG, Ortiz J. Di Natali C, et al. Among authors: de eyto a. Front Neurorobot. 2020 Jun 30;14:31. doi: 10.3389/fnbot.2020.00031. eCollection 2020. Front Neurorobot. 2020. PMID: 32714175 Free PMC article.
The effect of simulated circumferential soft exoskeleton compression at the knee on discomfort and pain.
Kermavnar T, O'Sullivan KJ, de Eyto A, O'Sullivan LW. Kermavnar T, et al. Among authors: de eyto a. Ergonomics. 2020 May;63(5):618-628. doi: 10.1080/00140139.2020.1743373. Epub 2020 Mar 30. Ergonomics. 2020. PMID: 32167025
Relationship Between Interface Pressures and Pneumatic Cuff Inflation Pressure at Different Assessment Sites of the Lower Limb to Aid Soft Exoskeleton Design.
Kermavnar T, O'Sullivan KJ, de Eyto A, O'Sullivan LW. Kermavnar T, et al. Among authors: de eyto a. Hum Factors. 2020 Mar 13:18720820908758. doi: 10.1177/0018720820908758. Online ahead of print. Hum Factors. 2020. PMID: 32167798
Circumferential tissue compression at the lower limb during walking, and its effect on discomfort, pain and tissue oxygenation: Application to soft exoskeleton design.
Kermavnar T, O'Sullivan KJ, Casey V, de Eyto A, O'Sullivan LW. Kermavnar T, et al. Among authors: de eyto a. Appl Ergon. 2020 Jul;86:103093. doi: 10.1016/j.apergo.2020.103093. Epub 2020 Mar 28. Appl Ergon. 2020. PMID: 32342884
Technology acceptance and perceptions of robotic assistive devices by older adults - implications for exoskeleton design.
Shore L, de Eyto A, O'Sullivan L. Shore L, et al. Among authors: de eyto a. Disabil Rehabil Assist Technol. 2020 Sep 29:1-9. doi: 10.1080/17483107.2020.1817988. Online ahead of print. Disabil Rehabil Assist Technol. 2020. PMID: 32988251
Discomfort/Pain and Tissue Oxygenation at the Lower Limb During Circumferential Compression: Application to Soft Exoskeleton Design.
Kermavnar T, O'Sullivan KJ, de Eyto A, O'Sullivan LW. Kermavnar T, et al. Among authors: de eyto a. Hum Factors. 2020 May;62(3):475-488. doi: 10.1177/0018720819892098. Epub 2020 Jan 13. Hum Factors. 2020. PMID: 31928412
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