Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study

Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study

The objective of the work presented is to improve functional electrical stimulation (FES) assisted sit-to-stand motion in complete paraplegic individuals by restoring coordination between the upper part of the subject’s body, under voluntary control, and the lower part of the body, under FES control...

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Main Authors: Jović Jovana, Coste Christine Azevedo, Fraisse Philippe, Fattal Charles
Format: Article
Language:English
Published: De Gruyter 2011-12-01
Series:Paladyn: Journal of Behavioral Robotics
Subjects:
fes
sit-to-stand
paraplegia
Online Access:https://doi.org/10.2478/s13230-012-0016-1
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spelling doaj-3f03532de7024f00b83dae65987565742021-10-02T19:11:45ZengDe GruyterPaladyn: Journal of Behavioral Robotics2081-48362011-12-012421121710.2478/s13230-012-0016-1Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case studyJović Jovana0Coste Christine Azevedo1Fraisse Philippe2Fattal Charles3 LIRMM, 161 rue Ada, 34392 Montpellier Cedex 5, France LIRMM, 161 rue Ada, 34392 Montpellier Cedex 5, France LIRMM, 161 rue Ada, 34392 Montpellier Cedex 5, France Centre PROPARA, 263 avenue du Caducée, 34090 Montpellier, FranceThe objective of the work presented is to improve functional electrical stimulation (FES) assisted sit-to-stand motion in complete paraplegic individuals by restoring coordination between the upper part of the subject’s body, under voluntary control, and the lower part of the body, under FES control. The proposed approach is based on the observation of trunk movement during rising motion and a detection algorithm, which triggers a pre-programmed stimulation pattern. We present a pilot study carried out on one T6 paraplegic subject. We validated the ability of the subject to produce repeatable trunk acceleration during sit-to-stand transfers under FES and, the ability of the system to trigger the stimulator at the desired instant in time. We also analyzed the influence of the timing of leg stimulation, relative to the trunk acceleration profile, on upper limb efforts applied during sit-to-stand motion.https://doi.org/10.2478/s13230-012-0016-1fessit-to-standparaplegia
collection DOAJ
language English
format Article
sources DOAJ
author Jović Jovana
Coste Christine Azevedo
Fraisse Philippe
Fattal Charles
spellingShingle Jović Jovana
Coste Christine Azevedo
Fraisse Philippe
Fattal Charles
Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
Paladyn: Journal of Behavioral Robotics
fes
sit-to-stand
paraplegia
author_facet Jović Jovana
Coste Christine Azevedo
Fraisse Philippe
Fattal Charles
author_sort Jović Jovana
title Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
title_short Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
title_full Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
title_fullStr Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
title_full_unstemmed Upper and lower body coordination in FES-assisted sit-to-stand transfers in paraplegic subjects - A case study
title_sort upper and lower body coordination in fes-assisted sit-to-stand transfers in paraplegic subjects - a case study
publisher De Gruyter
series Paladyn: Journal of Behavioral Robotics
issn 2081-4836
publishDate 2011-12-01
description The objective of the work presented is to improve functional electrical stimulation (FES) assisted sit-to-stand motion in complete paraplegic individuals by restoring coordination between the upper part of the subject’s body, under voluntary control, and the lower part of the body, under FES control. The proposed approach is based on the observation of trunk movement during rising motion and a detection algorithm, which triggers a pre-programmed stimulation pattern. We present a pilot study carried out on one T6 paraplegic subject. We validated the ability of the subject to produce repeatable trunk acceleration during sit-to-stand transfers under FES and, the ability of the system to trigger the stimulator at the desired instant in time. We also analyzed the influence of the timing of leg stimulation, relative to the trunk acceleration profile, on upper limb efforts applied during sit-to-stand motion.
topic fes
sit-to-stand
paraplegia
url https://doi.org/10.2478/s13230-012-0016-1
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AT costechristineazevedo upperandlowerbodycoordinationinfesassistedsittostandtransfersinparaplegicsubjectsacasestudy
AT fraissephilippe upperandlowerbodycoordinationinfesassistedsittostandtransfersinparaplegicsubjectsacasestudy
AT fattalcharles upperandlowerbodycoordinationinfesassistedsittostandtransfersinparaplegicsubjectsacasestudy
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