Load carriage during walking increases dynamic stiffness at distal lower limb joints

Thiago R.T. Santos; Sergio T. Fonseca; Vanessa L. Araújo; Sangjun Lee; Fabricio Saucedo; Stephen Allen; Christopher Siviy; Thales R. Souza; Conor Walsh; Kenneth G. Holt

doi:10.1123/jab.2020-0346

Load carriage during walking increases dynamic stiffness at distal lower limb joints

Thiago R.T. Santos, Sergio T. Fonseca, Vanessa L. Araújo, Sangjun Lee, Fabricio Saucedo, Stephen Allen, Christopher Siviy, Thales R. Souza, Conor Walsh, Kenneth G. Holt

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

2 Scopus citations

Abstract

The addition of a load during walking requires changes in the movement pattern. The investigation of the dynamic joint stiffness behavior may help to understand the lower limb joints' contribution to these changes. This study aimed to investigate the dynamic stiffness of lower limb joints in response to the increased load carried while walking. Thirteen participants walked in two conditions: Unloaded (an empty backpack) and loaded (the same backpack plus added mass corresponding to 30% of body mass). Dynamic stiffness was calculated as the linear slope of the regression line on the moment-angle curve during the power absorption phases of the ankle, knee, and hip in the sagittal plane. The results showed that ankle (P = .002) and knee (P < .001) increased their dynamic stiffness during loaded walking compared with unloaded, but no difference was observed at the hip (P = .332). The dynamic stiffness changes were different among joints (P < .001): Ankle and knee changes were not different (P < .992), but they had a greater change than hip (P < .001). The nonuniform increases in lower limb joint dynamic stiffness suggest that the ankle and knee are critical joints to deal with the extra loading.

Original language	English (US)
Pages (from-to)	373-379
Number of pages	7
Journal	Journal of applied biomechanics
Volume	37
Issue number	4
DOIs	https://doi.org/10.1123/jab.2020-0346
State	Published - Aug 2021

All Science Journal Classification (ASJC) codes

Biophysics
Orthopedics and Sports Medicine
Rehabilitation

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10.1123/jab.2020-0346

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@article{cc64b399cae44c59a5ce1758e2bcb1a1,

title = "Load carriage during walking increases dynamic stiffness at distal lower limb joints",

abstract = "The addition of a load during walking requires changes in the movement pattern. The investigation of the dynamic joint stiffness behavior may help to understand the lower limb joints' contribution to these changes. This study aimed to investigate the dynamic stiffness of lower limb joints in response to the increased load carried while walking. Thirteen participants walked in two conditions: Unloaded (an empty backpack) and loaded (the same backpack plus added mass corresponding to 30% of body mass). Dynamic stiffness was calculated as the linear slope of the regression line on the moment-angle curve during the power absorption phases of the ankle, knee, and hip in the sagittal plane. The results showed that ankle (P = .002) and knee (P < .001) increased their dynamic stiffness during loaded walking compared with unloaded, but no difference was observed at the hip (P = .332). The dynamic stiffness changes were different among joints (P < .001): Ankle and knee changes were not different (P < .992), but they had a greater change than hip (P < .001). The nonuniform increases in lower limb joint dynamic stiffness suggest that the ankle and knee are critical joints to deal with the extra loading. ",

author = "Santos, {Thiago R.T.} and Fonseca, {Sergio T.} and Ara{\'u}jo, {Vanessa L.} and Sangjun Lee and Fabricio Saucedo and Stephen Allen and Christopher Siviy and Souza, {Thales R.} and Conor Walsh and Holt, {Kenneth G.}",

note = "Funding Information: T.R.T.S. and V.L.A. were financially supported by the Brazilian government funding agency Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior. S.L. was partially supported by the Samsung Scholarship. S.T.F. and T.R.S. were partially supported by the Government Funding Agencies Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tec-nol{\'o}gico, Funda{\c c}{\~a}o de Amparo {\`a} Pesquisa do Estado de Minas Gerais, and Coordena{\c c}{\~a}o de Aperfei{\c c}oamento de Pessoal de N{\'i}vel Superior (finance code 001). This work is part of a project supported by the Defense Advanced Research Projects Agency, Warrior Web Program (Contract No. W911QX-12-C-0084). The authors have no conflict of interest. Publisher Copyright: {\textcopyright} 2021 Human Kinetics, Inc.",

year = "2021",

month = aug,

doi = "10.1123/jab.2020-0346",

language = "English (US)",

volume = "37",

pages = "373--379",

journal = "Journal of Applied Biomechanics",

issn = "1065-8483",

publisher = "Human Kinetics Publishers Inc.",

number = "4",

}

TY - JOUR

T1 - Load carriage during walking increases dynamic stiffness at distal lower limb joints

AU - Santos, Thiago R.T.

AU - Fonseca, Sergio T.

AU - Araújo, Vanessa L.

AU - Lee, Sangjun

AU - Saucedo, Fabricio

AU - Allen, Stephen

AU - Siviy, Christopher

AU - Souza, Thales R.

AU - Walsh, Conor

AU - Holt, Kenneth G.

N1 - Funding Information: T.R.T.S. and V.L.A. were financially supported by the Brazilian government funding agency Coordenação de Aperfeiçoamento de Pessoal de Nível Superior. S.L. was partially supported by the Samsung Scholarship. S.T.F. and T.R.S. were partially supported by the Government Funding Agencies Conselho Nacional de Desenvolvimento Científico e Tec-nológico, Fundação de Amparo à Pesquisa do Estado de Minas Gerais, and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (finance code 001). This work is part of a project supported by the Defense Advanced Research Projects Agency, Warrior Web Program (Contract No. W911QX-12-C-0084). The authors have no conflict of interest. Publisher Copyright: © 2021 Human Kinetics, Inc.

PY - 2021/8

Y1 - 2021/8

N2 - The addition of a load during walking requires changes in the movement pattern. The investigation of the dynamic joint stiffness behavior may help to understand the lower limb joints' contribution to these changes. This study aimed to investigate the dynamic stiffness of lower limb joints in response to the increased load carried while walking. Thirteen participants walked in two conditions: Unloaded (an empty backpack) and loaded (the same backpack plus added mass corresponding to 30% of body mass). Dynamic stiffness was calculated as the linear slope of the regression line on the moment-angle curve during the power absorption phases of the ankle, knee, and hip in the sagittal plane. The results showed that ankle (P = .002) and knee (P < .001) increased their dynamic stiffness during loaded walking compared with unloaded, but no difference was observed at the hip (P = .332). The dynamic stiffness changes were different among joints (P < .001): Ankle and knee changes were not different (P < .992), but they had a greater change than hip (P < .001). The nonuniform increases in lower limb joint dynamic stiffness suggest that the ankle and knee are critical joints to deal with the extra loading.

AB - The addition of a load during walking requires changes in the movement pattern. The investigation of the dynamic joint stiffness behavior may help to understand the lower limb joints' contribution to these changes. This study aimed to investigate the dynamic stiffness of lower limb joints in response to the increased load carried while walking. Thirteen participants walked in two conditions: Unloaded (an empty backpack) and loaded (the same backpack plus added mass corresponding to 30% of body mass). Dynamic stiffness was calculated as the linear slope of the regression line on the moment-angle curve during the power absorption phases of the ankle, knee, and hip in the sagittal plane. The results showed that ankle (P = .002) and knee (P < .001) increased their dynamic stiffness during loaded walking compared with unloaded, but no difference was observed at the hip (P = .332). The dynamic stiffness changes were different among joints (P < .001): Ankle and knee changes were not different (P < .992), but they had a greater change than hip (P < .001). The nonuniform increases in lower limb joint dynamic stiffness suggest that the ankle and knee are critical joints to deal with the extra loading.

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DO - 10.1123/jab.2020-0346

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VL - 37

SP - 373

EP - 379

JO - Journal of Applied Biomechanics

JF - Journal of Applied Biomechanics

IS - 4

ER -

Load carriage during walking increases dynamic stiffness at distal lower limb joints

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