Applications of sensory feedback in motorized upper extremity prosthesis: a review

Schofield, Jonathon S.; Evans, Katherine R.; Carey, Jason P.; Hebert, Jacqueline S.

doi:10.1586/17434440.2014.929496

Cited by 139 publications

(116 citation statements)

References 60 publications

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“…The device may also provide information to the user about the plant that the user does not otherwise have. In this case, the device may restore sensory feedback (touch or movement) to the user about bodyenvironment-task interactions [31,32]. The device may do so through neural activation to restore basic sensory capabilities such as vision, hearing, touch, or kinesthesia [33].…”

Section: Biomimetic Prosthetics 52mentioning

confidence: 99%

“…And tactile manipulation of skin at these sites stimulates aferent pathways that elicit sensory feedback of the missing hand to the amputee. The biological neural-machine-interface created by TMR is a unique platform for investigating control of multi-sensory prosthesis [7,31,32] and potential cognitive frameworks of agency. Speciically, agency considerations may enhance the EMG motor command interface and augment how sensory feedback is perceived by the user.…”

Section: Optimizing User Agency Over Devicementioning

confidence: 99%

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Optimizing User Integration for Individualized Rehabilitation

Nataraj¹

2018

Biomimetic Prosthetics

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User integration with assistive devices or rehabilitation protocols to improve movement function is a key principle to consider for developers to truly optimize performance gains. Beter integration may entail customizing operation of devices and training programs according to several user characteristics during execution of functional tasks. These characteristics may be physical dimensions, residual capabilities, restored sensory feedback, cognitive perception, or stereotypical actions.

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Section: Biomimetic Prosthetics 52mentioning

confidence: 99%

Section: Optimizing User Agency Over Devicementioning

confidence: 99%

Optimizing User Integration for Individualized Rehabilitation

Nataraj¹

2018

Biomimetic Prosthetics

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“…It is believed that the implementation of feedback to create a closed-loop system will improve the performance of the prosthetic. In active prosthetics, three of the major ways to provide sensor feedback to the user include substitution, modality-matched, and somatically matched feedback mechanisms [35]. In general, substitution feedback is the application of an indirect stimulus that is intended to substitute another form of stimulus, i.e., substituting a touch stimulus with an auditory one.…”

Section: Introductionmentioning

confidence: 99%

“…Somatotopically matched feedback causes the user to perceive the correct sensation from the correct location, as if the prosthetic was their natural limb. In order to create a prosthetic that most accurately performs sensory feedback, both modality-matched and somatotopically matched feedbacks should be employed [2,35].…”

Section: Introductionmentioning

confidence: 99%

“…At a distance of approximately 1 meter, the conduction times of afferent nerves range between approximately 14 and 28 ms [25]; therefore a short latency of the additional feedback is important to create real-time reactions. Short latencies, similar to that of a normal human hand, are also believed to help promote user ownership of the prosthetic [35].…”

Section: Introductionmentioning

confidence: 99%

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Introductory Chapter: Toward Near-Natural Assistive Devices

Burns¹,

Schumacher²,

Vinjamuri³

2018

Biomimetic Prosthetics

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“It's Not My Knee”: Understanding Ongoing Pain and Discomfort After Total Knee Replacement Through Re‐Embodiment

Moore

Eccleston

Gooberman-Hill

2022

Arthritis Care & Research

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Objective. Up to 20% of people who undergo total knee replacement surgery have ongoing pain and discomfort. The aim of this study was to understand what role the concepts of embodiment (of both having a body and experiencing the world through one's body) and incorporation (integrating something into one's body) might have in understanding experiences of pain and discomfort after total knee replacement.Methods. We conducted semistructured interviews with 34 people who had received total knee replacement at either of 2 National Health Service hospitals in the UK, and who had chronic postsurgical pain (n = 34, ages 55-93 years). Data were audiorecorded, transcribed, and analyzed thematically.Results. Two main themes were identified: 1) when describing chronic postsurgical pain, some participants also described sensations of discomfort, including heaviness, numbness, pressure, and tightness associated with the prosthesis; 2) participants reported a lack of felt connection with and agency over their replaced knee, often describing it as alien or other, and lacked confidence in the knee.Conclusion. Participants' experiences indicate that some people do not achieve full incorporation of the prosthesis. Our study emphasizes the importance of physicians treating patients as whole people and moving beyond clinical and procedural ideas of success. Our findings suggest that to optimize postoperative outcomes, rehabilitation must focus not only on strengthening the joint and promoting full recovery to tasks but on modifying a person's relationship to the new joint and managing sensations of otherness to achieve full incorporation of the joint or re-embodiment.The views expressed herein are those of the authors and not necessarily those of the NIHR or the Department of Health and Social Care.

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Applications of sensory feedback in motorized upper extremity prosthesis: a review

Cited by 139 publications

References 60 publications

Optimizing User Integration for Individualized Rehabilitation

Optimizing User Integration for Individualized Rehabilitation

Introductory Chapter: Toward Near-Natural Assistive Devices

“It's Not My Knee”: Understanding Ongoing Pain and Discomfort After Total Knee Replacement Through Re‐Embodiment

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