Surface, but Not Age Impact Lower Limb Joint Work During Walk and Stair Ascent

Thomas A. Wenzel; Nicholas L. Hunt; Amy E. Holcomb; Clare K. Fitzpatrick; Tyler N. Brown

Surface, but Not Age Impact Lower Limb Joint Work During Walk and Stair Ascent

Thomas A. Wenzel, Nicholas L. Hunt, Amy E. Holcomb, Clare K. Fitzpatrick, Tyler N. Brown

Boise State University

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Abstract

During common locomotor activates, such as walk or stair negotiation, older adults exhibit unfavorable lower limb biomechanical changes, including diminished joint torque and power, and proximal mechanical work redistribution that may increase their fall risk. To investigate age-related differences in lower limb work, twelve young (18 to 25 years) and 12 older (> 65 years) adults performed a walk and stair ascent task on a normal, slick, and uneven surface. For each walk and stair ascent trial, synchronous 3D marker trajectories and GRF data were collected. Stance phase positive limb and joint work, and relative joint work were submitted to statistical analysis. Ascending stairs required more positive work than the walk, particularly from the knee, which may increase fall risk. Yet, both walking and ascending stairs over a challenging surface required more, proximally distributed work.

Original language	American English
State	Published - 19 Apr 2024

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Surface but Not Age Impact Lower Limb Joint Work During Walk andFinal published version, 1.89 MBLicense: Unspecified
Surface but Not Age Impact Lower Limb Joint Work During Walk andFinal published version, 1.89 MBLicense: Unspecified

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@conference{19f34e42799a4f4c964918ce3daaabcc,

title = "Surface, but Not Age Impact Lower Limb Joint Work During Walk and Stair Ascent",

abstract = "During common locomotor activates, such as walk or stair negotiation, older adults exhibit unfavorable lower limb biomechanical changes, including diminished joint torque and power, and proximal mechanical work redistribution that may increase their fall risk. To investigate age-related differences in lower limb work, twelve young (18 to 25 years) and 12 older (> 65 years) adults performed a walk and stair ascent task on a normal, slick, and uneven surface. For each walk and stair ascent trial, synchronous 3D marker trajectories and GRF data were collected. Stance phase positive limb and joint work, and relative joint work were submitted to statistical analysis. Ascending stairs required more positive work than the walk, particularly from the knee, which may increase fall risk. Yet, both walking and ascending stairs over a challenging surface required more, proximally distributed work.",

author = "Wenzel, {Thomas A.} and Hunt, {Nicholas L.} and Holcomb, {Amy E.} and Fitzpatrick, {Clare K.} and Brown, {Tyler N.}",

year = "2024",

month = apr,

day = "19",

language = "American English",

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TY - CONF

T1 - Surface, but Not Age Impact Lower Limb Joint Work During Walk and Stair Ascent

AU - Wenzel, Thomas A.

AU - Hunt, Nicholas L.

AU - Holcomb, Amy E.

AU - Fitzpatrick, Clare K.

AU - Brown, Tyler N.

PY - 2024/4/19

Y1 - 2024/4/19

N2 - During common locomotor activates, such as walk or stair negotiation, older adults exhibit unfavorable lower limb biomechanical changes, including diminished joint torque and power, and proximal mechanical work redistribution that may increase their fall risk. To investigate age-related differences in lower limb work, twelve young (18 to 25 years) and 12 older (> 65 years) adults performed a walk and stair ascent task on a normal, slick, and uneven surface. For each walk and stair ascent trial, synchronous 3D marker trajectories and GRF data were collected. Stance phase positive limb and joint work, and relative joint work were submitted to statistical analysis. Ascending stairs required more positive work than the walk, particularly from the knee, which may increase fall risk. Yet, both walking and ascending stairs over a challenging surface required more, proximally distributed work.

AB - During common locomotor activates, such as walk or stair negotiation, older adults exhibit unfavorable lower limb biomechanical changes, including diminished joint torque and power, and proximal mechanical work redistribution that may increase their fall risk. To investigate age-related differences in lower limb work, twelve young (18 to 25 years) and 12 older (> 65 years) adults performed a walk and stair ascent task on a normal, slick, and uneven surface. For each walk and stair ascent trial, synchronous 3D marker trajectories and GRF data were collected. Stance phase positive limb and joint work, and relative joint work were submitted to statistical analysis. Ascending stairs required more positive work than the walk, particularly from the knee, which may increase fall risk. Yet, both walking and ascending stairs over a challenging surface required more, proximally distributed work.

UR - https://scholarworks.boisestate.edu/under_showcase_2024/13

M3 - Presentation

ER -

Surface, but Not Age Impact Lower Limb Joint Work During Walk and Stair Ascent

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