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The effect of clinically elevated body mass index on physiological stress during manual lifting activities.临床体重指数升高对体力活动中生理应激的影响。
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Physiological impact of load carriage exercise: Current understanding and future research directions.负重运动的生理影响:当前的认识和未来的研究方向。
Physiol Rep. 2022 Nov;10(21):e15502. doi: 10.14814/phy2.15502.
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The Physiology and Biomechanics of Load Carriage Performance.负载搬运性能的生理学与生物力学
Mil Med. 2019 Jan 1;184(1-2):e83-e90. doi: 10.1093/milmed/usy218.
10
Assessing gait changes in firefighters after firefighting activities and while carrying asymmetric loads.评估消防员在消防活动后和携带非对称负荷时的步态变化。
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在大量警察新兵样本中,携带警用装备会增加不同足部区域地面反作用力和足底压力的步态不对称性。

Carrying Police Load Increases Gait Asymmetry in Ground Reaction Forces and Plantar Pressures Beneath Different Foot Regions in a Large Sample of Police Recruits.

作者信息

Kasović Mario, Štefan Andro, Štefan Lovro

机构信息

Department of General and Applied Kinesiology, Faculty of Kinesiology, University of Zagreb, 10000 Zagreb, Croatia.

Department of Physical Activities and Health Sciences, Faculty of Sports Studies, Masaryk University, 625 00 Brno, Czech Republic.

出版信息

Bioengineering (Basel). 2024 Sep 5;11(9):895. doi: 10.3390/bioengineering11090895.

DOI:10.3390/bioengineering11090895
PMID:39329637
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11428323/
Abstract

BACKGROUND

Although carrying external load has negative effects on gait biomechanics, little evidence has been provided regarding its impact on body asymmetry. The main purpose of the present study was to examine, whether standardized equipment produced greater gait asymmetries in ground reaction force and plantar pressure.

METHODS

For the purpose of this study, we recruited 845 police recruits (609 men and 236 women; 72.1% men and 27.9% women) measured in two conditions: (i) 'no load' and (ii) 'a 3.5 kg load'. Absolute values in ground reaction forces and plantar pressures beneath the different foot regions were assessed with pedobarographic platform (Zebris FDM). Asymmetry was calculated as (x - x)/0.5 × (x + x) × 100%, where 'x' represented a given parameter being calculated and a value closer to 0 denoted greater symmetry.

RESULTS

Significant differences in ground reaction forces and plantar pressures between the left and right foot were observed, when adding 'a 3.5 kg load'. Compared to the 'no load' condition, carrying 'a 3.5 kg load' significantly increased gait asymmetries for maximal ground reaction forces beneath the forefoot (ES = 0.29), midfoot (ES = 0.20) and hindfoot (ES = 0.19) regions of the foot. For maximal plantar pressures, only the asymmetry beneath the midfoot region of the foot significantly increased (ES = 0.19).

CONCLUSIONS

Findings of this study indicate that 'a 3.5 kg load' significantly increases ground reaction force and plantar pressure gait asymmetries beneath the forefoot and midfoot regions, compared to 'no load' condition. Due to higher loads, increases in kinetic gait asymmetries may have negative effects on future pain and discomfort in the foot area, possibly causing stress fractures and deviated gait biomechanics in police recruits.

摘要

背景

尽管携带外部负荷会对步态生物力学产生负面影响,但关于其对身体不对称性影响的证据却很少。本研究的主要目的是检验标准化装备是否会在地面反作用力和足底压力方面产生更大的步态不对称性。

方法

为了本研究的目的,我们招募了845名警察新兵(609名男性和236名女性;男性占72.1%,女性占27.9%),在两种条件下进行测量:(i)“无负荷”和(ii)“3.5千克负荷”。使用足底压力测量平台(Zebris FDM)评估不同足部区域下方的地面反作用力和足底压力的绝对值。不对称性计算为(x - x)/0.5×(x + x)×100%,其中“x”代表正在计算的给定参数,值越接近0表示对称性越高。

结果

在增加“3.5千克负荷”时,观察到左右脚之间的地面反作用力和足底压力存在显著差异。与“无负荷”条件相比,携带“3.5千克负荷”显著增加了前足(效应量=0.29)、中足(效应量=0.20)和后足(效应量=0.19)区域最大地面反作用力的步态不对称性。对于最大足底压力,仅足部中足区域下方的不对称性显著增加(效应量=0.19)。

结论

本研究结果表明,与“无负荷”条件相比,“3.5千克负荷”显著增加了前足和中足区域下方的地面反作用力和足底压力步态不对称性。由于负荷较高,动态步态不对称性的增加可能会对未来足部区域的疼痛和不适产生负面影响,可能导致警察新兵出现应力性骨折和步态生物力学偏差。