Assessments of trunk postural control within a fall-prevention training program for service members with lower limb trauma and loss

Assessments of trunk postural control within a fall-prevention training program for service members with lower limb trauma and loss

•Trunk postural control (TPC) is critical for avoiding falls after perturbation.•TPC is impaired with lower extremity trauma, contributing to elevated fall risk.•Improvements to TPC gained from fall-prevention training may be task-specific.•Unstable sitting cannot necessarily predict efficacy of fal...

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Veröffentlicht in:Gait & posture 2022-02, Vol.92, p.493-497
Hauptverfasser: Acasio, Julian C., Guerrero, Noel A., Sheehan, Riley C., Butowicz, Courtney M., Tullos, Meghan L., Mahon, Caitlin E., Stewart, Julianne M., Zai, Claire Z., Kingsbury, Trevor D., Grabiner, Mark D., Dearth, Christopher L., Kaufman, Kenton R., Hendershot, Brad D.
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Sprache:eng
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Accidental Falls - prevention & control
Biomechanical Phenomena
Extremity trauma
Fall prevention
Female
Humans
Lower Extremity
Male
Postural Balance
Torso
Trunk postural control
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container_end_page 497
container_issue
container_start_page 493
container_title Gait & posture
container_volume 92
creator Acasio, Julian C.
Guerrero, Noel A.
Sheehan, Riley C.
Butowicz, Courtney M.
Tullos, Meghan L.
Mahon, Caitlin E.
Stewart, Julianne M.
Zai, Claire Z.
Kingsbury, Trevor D.
Grabiner, Mark D.
Dearth, Christopher L.
Kaufman, Kenton R.
Hendershot, Brad D.
description •Trunk postural control (TPC) is critical for avoiding falls after perturbation.•TPC is impaired with lower extremity trauma, contributing to elevated fall risk.•Improvements to TPC gained from fall-prevention training may be task-specific.•Unstable sitting cannot necessarily predict efficacy of fall-prevention training. Trunk postural control (TPC) is critical in maintaining balance following perturbations (i.e., avoiding falls), and impaired among persons with lower extremity trauma, contributing to elevated fall risk. Previously, a fall-prevention program improved TPC in individuals with unilateral transtibial amputation following trip-inducing perturbations. However, it is presently unclear if these improvements are task specific. Do improvements to TPC gained from a fall-prevention program translate to another task which assesses TPC in isolation (i.e., unstable sitting)? Secondarily, can isolated TPC be used to identify who would benefit most from the fall-prevention program? Twenty-five individuals (21 male/4 female) with lower extremity trauma, who participated in a larger fall-prevention program, were included in this analysis. Trunk flexion and flexion velocity quantified TPC following perturbation; accelerometer-based sway parameters quantified TPC during unstable sitting. A generalized linear mixed-effects model assessed training-induced differences in TPC after perturbation; a generalized linear model assessed differences in sway parameters following training. Spearman’s rho related training-induced changes to TPC following perturbation (i.e., the difference in TPC measures at pre- and post-training assessments) with pre- vs. post-training changes to sway parameters during unstable sitting (i.e., the difference in sway parameters at pre- and post-training assessments) as well as pre-training sway parameters with the pre- vs. post-training differences in TPC following perturbation. Following training, trunk flexion angles decreased, indicating improved TPC; however, sway parameters did not differ pre- and post-training. In addition, pre- vs. post-training differences in TPC following perturbation were neither strongly nor significantly correlated with sway parameters. Moreover, pre-training sway parameters did not correlate with pre- vs. post-training differences in trunk flexion/flexion velocity. Overall, these results indicate that improvements to TPC gained from fall-prevention training are task-specific and do not translate to other activit
doi_str_mv 10.1016/j.gaitpost.2021.02.020
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Trunk postural control (TPC) is critical in maintaining balance following perturbations (i.e., avoiding falls), and impaired among persons with lower extremity trauma, contributing to elevated fall risk. Previously, a fall-prevention program improved TPC in individuals with unilateral transtibial amputation following trip-inducing perturbations. However, it is presently unclear if these improvements are task specific. Do improvements to TPC gained from a fall-prevention program translate to another task which assesses TPC in isolation (i.e., unstable sitting)? Secondarily, can isolated TPC be used to identify who would benefit most from the fall-prevention program? Twenty-five individuals (21 male/4 female) with lower extremity trauma, who participated in a larger fall-prevention program, were included in this analysis. Trunk flexion and flexion velocity quantified TPC following perturbation; accelerometer-based sway parameters quantified TPC during unstable sitting. A generalized linear mixed-effects model assessed training-induced differences in TPC after perturbation; a generalized linear model assessed differences in sway parameters following training. Spearman’s rho related training-induced changes to TPC following perturbation (i.e., the difference in TPC measures at pre- and post-training assessments) with pre- vs. post-training changes to sway parameters during unstable sitting (i.e., the difference in sway parameters at pre- and post-training assessments) as well as pre-training sway parameters with the pre- vs. post-training differences in TPC following perturbation. Following training, trunk flexion angles decreased, indicating improved TPC; however, sway parameters did not differ pre- and post-training. In addition, pre- vs. post-training differences in TPC following perturbation were neither strongly nor significantly correlated with sway parameters. 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Trunk postural control (TPC) is critical in maintaining balance following perturbations (i.e., avoiding falls), and impaired among persons with lower extremity trauma, contributing to elevated fall risk. Previously, a fall-prevention program improved TPC in individuals with unilateral transtibial amputation following trip-inducing perturbations. However, it is presently unclear if these improvements are task specific. Do improvements to TPC gained from a fall-prevention program translate to another task which assesses TPC in isolation (i.e., unstable sitting)? Secondarily, can isolated TPC be used to identify who would benefit most from the fall-prevention program? Twenty-five individuals (21 male/4 female) with lower extremity trauma, who participated in a larger fall-prevention program, were included in this analysis. Trunk flexion and flexion velocity quantified TPC following perturbation; accelerometer-based sway parameters quantified TPC during unstable sitting. A generalized linear mixed-effects model assessed training-induced differences in TPC after perturbation; a generalized linear model assessed differences in sway parameters following training. Spearman’s rho related training-induced changes to TPC following perturbation (i.e., the difference in TPC measures at pre- and post-training assessments) with pre- vs. post-training changes to sway parameters during unstable sitting (i.e., the difference in sway parameters at pre- and post-training assessments) as well as pre-training sway parameters with the pre- vs. post-training differences in TPC following perturbation. Following training, trunk flexion angles decreased, indicating improved TPC; however, sway parameters did not differ pre- and post-training. In addition, pre- vs. post-training differences in TPC following perturbation were neither strongly nor significantly correlated with sway parameters. Moreover, pre-training sway parameters did not correlate with pre- vs. post-training differences in trunk flexion/flexion velocity. Overall, these results indicate that improvements to TPC gained from fall-prevention training are task-specific and do not translate to other activities. 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Trunk postural control (TPC) is critical in maintaining balance following perturbations (i.e., avoiding falls), and impaired among persons with lower extremity trauma, contributing to elevated fall risk. Previously, a fall-prevention program improved TPC in individuals with unilateral transtibial amputation following trip-inducing perturbations. However, it is presently unclear if these improvements are task specific. Do improvements to TPC gained from a fall-prevention program translate to another task which assesses TPC in isolation (i.e., unstable sitting)? Secondarily, can isolated TPC be used to identify who would benefit most from the fall-prevention program? Twenty-five individuals (21 male/4 female) with lower extremity trauma, who participated in a larger fall-prevention program, were included in this analysis. Trunk flexion and flexion velocity quantified TPC following perturbation; accelerometer-based sway parameters quantified TPC during unstable sitting. A generalized linear mixed-effects model assessed training-induced differences in TPC after perturbation; a generalized linear model assessed differences in sway parameters following training. Spearman’s rho related training-induced changes to TPC following perturbation (i.e., the difference in TPC measures at pre- and post-training assessments) with pre- vs. post-training changes to sway parameters during unstable sitting (i.e., the difference in sway parameters at pre- and post-training assessments) as well as pre-training sway parameters with the pre- vs. post-training differences in TPC following perturbation. Following training, trunk flexion angles decreased, indicating improved TPC; however, sway parameters did not differ pre- and post-training. In addition, pre- vs. post-training differences in TPC following perturbation were neither strongly nor significantly correlated with sway parameters. Moreover, pre-training sway parameters did not correlate with pre- vs. post-training differences in trunk flexion/flexion velocity. Overall, these results indicate that improvements to TPC gained from fall-prevention training are task-specific and do not translate to other activities. Moreover, isolated TPC measures are not able to identify individuals that benefit most from the fall-prevention program.</abstract><cop>England</cop><pub>Elsevier B.V</pub><pmid>33663914</pmid><doi>10.1016/j.gaitpost.2021.02.020</doi><tpages>5</tpages><orcidid>https://orcid.org/0000-0001-5447-5819</orcidid><orcidid>https://orcid.org/0000-0003-1808-3599</orcidid><orcidid>https://orcid.org/0000-0002-3444-5388</orcidid><orcidid>https://orcid.org/0000-0003-3701-0950</orcidid><orcidid>https://orcid.org/0000-0002-4293-814X</orcidid><oa>free_for_read</oa></addata></record>
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subjects Accidental Falls - prevention & control
Biomechanical Phenomena
Extremity trauma
Fall prevention
Female
Humans
Lower Extremity
Male
Postural Balance
Torso
Trunk postural control
title Assessments of trunk postural control within a fall-prevention training program for service members with lower limb trauma and loss
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