OBJECTIVE: The aim of this study was to evaluate the long-lasting effects of prolonged standing work on a hard floor or floor mat and slow-pace walking on muscle twitch force (MTF) elicited by electrical stimulation. BACKGROUND: Prolonged standing work may alter lower-leg muscle function, which can be quantified by changes in the MTF amplitude and duration related to muscle fatigue. Ergonomic interventions have been proposed to mitigate fatigue and discomfort; however, their influences remain controversial. METHOD: Ten men and eight women simulated standing work in 320-min experiments with three conditions: standing on a hard floor or an antifatigue mat and walking on a treadmill, each including three seated rest breaks. MTF in the gastrocnemius-soleus muscles was evaluated through changes in signal amplitude and duration. RESULTS: The significant decrease of MTF amplitude and an increase of duration after standing work on a hard floor and on a mat persisted beyond 1 hr postwork. During walking, significant MTF metrics changes appeared 30 min postwork. MTF amplitude decrease was not significant after the first 110 min in any of the conditions; however, MTF duration was significantly higher than baseline in the standing conditions. CONCLUSION: Similar long-lasting weakening of MTF was induced by standing on a hard floor and on an antifatigue mat. However, walking partially attenuated this phenomenon. APPLICATION: Mostly static standing is likely to contribute to alterations of MTF in lower-leg muscles and potentially to musculoskeletal disorders regardless of the flooring characteristics. Occupational activities including slow-pace walking may reduce such deterioration in muscle function.
OBJECTIVE: The aim of this study was to evaluate the long-lasting effects of prolonged standing work on a hard floor or floor mat and slow-pace walking on muscle twitch force (MTF) elicited by electrical stimulation. BACKGROUND: Prolonged standing work may alter lower-leg muscle function, which can be quantified by changes in the MTF amplitude and duration related to muscle fatigue. Ergonomic interventions have been proposed to mitigate fatigue and discomfort; however, their influences remain controversial. METHOD: Ten men and eight women simulated standing work in 320-min experiments with three conditions: standing on a hard floor or an antifatigue mat and walking on a treadmill, each including three seated rest breaks. MTF in the gastrocnemius-soleus muscles was evaluated through changes in signal amplitude and duration. RESULTS: The significant decrease of MTF amplitude and an increase of duration after standing work on a hard floor and on a mat persisted beyond 1 hr postwork. During walking, significant MTF metrics changes appeared 30 min postwork. MTF amplitude decrease was not significant after the first 110 min in any of the conditions; however, MTF duration was significantly higher than baseline in the standing conditions. CONCLUSION: Similar long-lasting weakening of MTF was induced by standing on a hard floor and on an antifatigue mat. However, walking partially attenuated this phenomenon. APPLICATION: Mostly static standing is likely to contribute to alterations of MTF in lower-leg muscles and potentially to musculoskeletal disorders regardless of the flooring characteristics. Occupational activities including slow-pace walking may reduce such deterioration in muscle function.
Authors: Pam Ten Broeke; Merlijn Olthof; Debby G J Beckers; Nicola D Hopkins; Lee E F Graves; Sophie E Carter; Madeleine Cochrane; David Gavin; Abigail S Morris; Anna Lichtwarck-Aschoff; Sabine A E Geurts; Dick H J Thijssen; Erik Bijleveld Journal: Proc Natl Acad Sci U S A Date: 2020-06-15 Impact factor: 11.205
Authors: Augustine A Acquah; Clive D'Souza; Bernard J Martin; John Arko-Mensah; Paul K Botwe; Prudence Tettey; Duah Dwomoh; Afua Amoabeng Nti; Lawrencia Kwarteng; Sylvia Takyi; Isabella A Quakyi; Thomas G Robins; Julius N Fobil Journal: Int J Ind Ergon Date: 2021-02-23 Impact factor: 2.656
Authors: Augustine A Acquah; Clive D'Souza; Bernard J Martin; John Arko-Mensah; Duah Dwomoh; Afua Asabea Amoabeng Nti; Lawrencia Kwarteng; Sylvia A Takyi; Niladri Basu; Isabella A Quakyi; Thomas G Robins; Julius N Fobil Journal: Int J Environ Res Public Health Date: 2021-02-19 Impact factor: 3.390
Authors: Paul Gonzalo Arauz; María-Gabriela García; Mauricio Velez; Cesar León; Francisco Velez; Bernard Martin Journal: PLoS One Date: 2021-12-14 Impact factor: 3.240
Authors: Charlotte Lund Rasmussen; Javier Palarea-Albaladejo; Adrian Bauman; Nidhi Gupta; Kirsten Nabe-Nielsen; Marie Birk Jørgensen; Andreas Holtermann Journal: Int J Environ Res Public Health Date: 2018-06-21 Impact factor: 3.390