Use of a virtual integrated environment in prosthetic limb development and phantom limb pain

Aimee L. Alphonso; Brett T. Monson; Michael J. Zeher; Robert S. Armiger; Sharon R. Weeks; J. M. Burck; C. Moran; R. Davoodie; G. Loeb; Paul F. Pasquina; Jack W. Tsao

Use of a virtual integrated environment in prosthetic limb development and phantom limb pain

Aimee L. Alphonso, Brett T. Monson, Michael J. Zeher, Robert S. Armiger, Sharon R. Weeks, J. M. Burck, C. Moran, R. Davoodie, G. Loeb, Paul F. Pasquina, Jack W. Tsao

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Patients face two major difficulties following limb loss: phantom limb pain (PLP) in the residual limb and limited functionality in the prosthetic limb. Many studies have focused on decreasing PLP with mirror therapy, yet few have examined the same visual ameliorating effect with a virtual or prosthetic limb. Our study addresses the following key questions: (1) does PLP decrease through observation of a 3D limb in a virtual integration environment (VIE) and (2) can consistent surface electromyography (sEMG) signals from the VIE drive an advanced modular prosthetic limb (MPL)? Recorded signals from the residual limb were correlated to the desired motion of the phantom limb, and changes in PLP were scored during each VIE session. Preliminary results show an overall reduction in PLP and a trend toward improvement in signal-to-motion accuracy over time. These signals allowed MPL users to perform a wide range of hand motions.

Original language	English (US)
Pages (from-to)	305-309
Number of pages	5
Journal	Annual Review of CyberTherapy and Telemedicine
Volume	10
State	Published - 2012
Externally published	Yes

Keywords

Computer-assisted rehabilitation
Phantom limb pain
Prostheses
Systems integration
Upper extremity amputation
Virtual integration environment

ASJC Scopus subject areas

Computer Science (miscellaneous)
Rehabilitation
Neuroscience (miscellaneous)
Psychology (miscellaneous)

Cite this

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title = "Use of a virtual integrated environment in prosthetic limb development and phantom limb pain",

abstract = "Patients face two major difficulties following limb loss: phantom limb pain (PLP) in the residual limb and limited functionality in the prosthetic limb. Many studies have focused on decreasing PLP with mirror therapy, yet few have examined the same visual ameliorating effect with a virtual or prosthetic limb. Our study addresses the following key questions: (1) does PLP decrease through observation of a 3D limb in a virtual integration environment (VIE) and (2) can consistent surface electromyography (sEMG) signals from the VIE drive an advanced modular prosthetic limb (MPL)? Recorded signals from the residual limb were correlated to the desired motion of the phantom limb, and changes in PLP were scored during each VIE session. Preliminary results show an overall reduction in PLP and a trend toward improvement in signal-to-motion accuracy over time. These signals allowed MPL users to perform a wide range of hand motions.",

keywords = "Computer-assisted rehabilitation, Phantom limb pain, Prostheses, Systems integration, Upper extremity amputation, Virtual integration environment",

author = "Alphonso, {Aimee L.} and Monson, {Brett T.} and Zeher, {Michael J.} and Armiger, {Robert S.} and Weeks, {Sharon R.} and Burck, {J. M.} and C. Moran and R. Davoodie and G. Loeb and Pasquina, {Paul F.} and Tsao, {Jack W.}",

note = "Publisher Copyright: {\textcopyright} 2012 Interactive Media Institute.",

year = "2012",

language = "English (US)",

volume = "10",

pages = "305--309",

journal = "Annual Review of CyberTherapy and Telemedicine",

issn = "1554-8716",

publisher = "Virtual Reality Medical Institute",

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T1 - Use of a virtual integrated environment in prosthetic limb development and phantom limb pain

AU - Alphonso, Aimee L.

AU - Monson, Brett T.

AU - Zeher, Michael J.

AU - Armiger, Robert S.

AU - Weeks, Sharon R.

AU - Burck, J. M.

AU - Moran, C.

AU - Davoodie, R.

AU - Loeb, G.

AU - Pasquina, Paul F.

AU - Tsao, Jack W.

PY - 2012

Y1 - 2012

N2 - Patients face two major difficulties following limb loss: phantom limb pain (PLP) in the residual limb and limited functionality in the prosthetic limb. Many studies have focused on decreasing PLP with mirror therapy, yet few have examined the same visual ameliorating effect with a virtual or prosthetic limb. Our study addresses the following key questions: (1) does PLP decrease through observation of a 3D limb in a virtual integration environment (VIE) and (2) can consistent surface electromyography (sEMG) signals from the VIE drive an advanced modular prosthetic limb (MPL)? Recorded signals from the residual limb were correlated to the desired motion of the phantom limb, and changes in PLP were scored during each VIE session. Preliminary results show an overall reduction in PLP and a trend toward improvement in signal-to-motion accuracy over time. These signals allowed MPL users to perform a wide range of hand motions.

AB - Patients face two major difficulties following limb loss: phantom limb pain (PLP) in the residual limb and limited functionality in the prosthetic limb. Many studies have focused on decreasing PLP with mirror therapy, yet few have examined the same visual ameliorating effect with a virtual or prosthetic limb. Our study addresses the following key questions: (1) does PLP decrease through observation of a 3D limb in a virtual integration environment (VIE) and (2) can consistent surface electromyography (sEMG) signals from the VIE drive an advanced modular prosthetic limb (MPL)? Recorded signals from the residual limb were correlated to the desired motion of the phantom limb, and changes in PLP were scored during each VIE session. Preliminary results show an overall reduction in PLP and a trend toward improvement in signal-to-motion accuracy over time. These signals allowed MPL users to perform a wide range of hand motions.

KW - Computer-assisted rehabilitation

KW - Phantom limb pain

KW - Prostheses

KW - Systems integration

KW - Upper extremity amputation

KW - Virtual integration environment

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SN - 1554-8716

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JO - Annual Review of CyberTherapy and Telemedicine

JF - Annual Review of CyberTherapy and Telemedicine

ER -

Use of a virtual integrated environment in prosthetic limb development and phantom limb pain

Abstract

Keywords

ASJC Scopus subject areas

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