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Loaded forced-marching shifts mechanical contributions proximally and disrupts stride-to-stride joint work modulation in recruit aged women.

Authors :
Krajewski, Kellen T.
Allen, Ian T.
Johnson, Camille C.
Dever, Dennis E.
Ahamed, Nizam U.
Flanagan, Shawn D.
Mi, Qi
Anderst, William J.
Connaboy, Chris
Source :
Gait & Posture. Jul2021, Vol. 88, p22-27. 6p.
Publication Year :
2021

Abstract

<bold>Background: </bold>Military personnel in combat roles often perform gait tasks with additional load, which can affect the contributions of joint mechanical work (positive and negative). Furthermore, different locomotion patterns can also affect joint specific work contributions. While mean behavior of joint work is important to understanding gait, changes in joint kinetic modulation, or the regulation/control of stride-to-stride joint work variability is necessary to elucidate locomotor system function. Suboptimal modulation exhibited as a stochastic time-series (large fluctuation followed by an opposite smaller fluctuation) could potentially affect locomotion efficiency and portend injury risk. It remains unclear how the locomotor system responds to a combination of load perturbations and varying locomotion patterns.<bold>Research Question: </bold>What are the interactive effects of load magnitude and locomotion pattern on joint positive/negative work and joint work modulation in healthy, active, recruit-aged women?<bold>Methods: </bold>Eleven healthy, active, recruit-aged (18-33 years) women ran and forced-marched (walking at a velocity an individual would typically jog) in bodyweight (BW), an additional 25 % of BW (+25 %BW) and an additional 45 % of BW (+45 %BW) conditions at a velocity above their gait transition velocity. Joint work was calculated as the time integral of joint power. Joint work modulation was assessed with detrended fluctuation analysis (DFA) on consecutive joint work time-series.<bold>Results: </bold>Joint work contributions shifted proximally for forced-marching demonstrated by lesser (p < .001) positive/negative ankle work but greater (p = .001) positive hip work contributions compared to running. Running exhibited optimal positive ankle work modulation compared to forced-marching (p = .040). Knee and ankle negative joint work modulation was adversely impacted compared to the hip during forced-marching (p < .001).<bold>Significance: </bold>Employing forced-marching gait while under loads of 25 and 45 % of BW reduces the ability of the plantar-flexors and knee extensors to optimally contribute to energy absorption and propulsion in recruit-aged women, potentially reducing metabolic efficiency and increasing injury risk. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09666362
Volume :
88
Database :
Academic Search Index
Journal :
Gait & Posture
Publication Type :
Academic Journal
Accession number :
151556417
Full Text :
https://doi.org/10.1016/j.gaitpost.2021.04.040