Comparing Humeral Kinematic Variability During Farm Task Performance Between Laboratory and Field Agricultural Settings in Saskatchewan.

IF 1.7 3区医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Journal of Agromedicine Pub Date : 2025-10-01 Epub Date: 2025-08-21 DOI:10.1080/1059924X.2025.2540579

Denise Balogh, Loukas Sherlock, Angelica E Lang

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引用次数: 0

Abstract

Objectives: Farmers experience high rates of shoulder injury, necessitating the need to better define the movement demands associated with farm work. Research is needed to determine whether simulating farm work in a laboratory environment will sufficiently capture the movement demands required in authentic agricultural environments. The purpose of this study was to compare variability in farm task performance between laboratory and field locations.

Methods: Inertial measurement units tracked humeral kinematics during four simulated farming work tasks (overhead drill, shovel, climb ladder, seed bag lift) and in three different locations; the laboratory, an agricultural tradeshow ("Ag in Motion"), and individual authentic grain/cattle farms. Ten participants per location were sex and age matched. Mean and peak humeral elevation, mean axial rotation, and peak internal and external rotation joint angles were evaluated for the primary "mover" arm during each of the tasks. Within and between participant variability, as well as differences in task performance across locations were evaluated.

Results: The within variability for peak humeral internal rotation during the shovel task was significantly lower in the laboratory compared to Ag in Motion and the farms (F_2,27 = 5.59, p < .01, η² = 0.29). However, within variability was comparable across locations for all other outcomes. Between participant variability was lowest in the laboratory in 12/20 outcomes, lowest at Ag in Motion in 7/20 outcomes, and lowest on the farms in only one outcome, suggesting lower between participant variability in the more highly controlled environments. Finally, significant differences in performance were elicited across locations for the overhead drill, shovel, and climb seeder tasks. Generally, lower humeral elevation and axial rotation occurred in the laboratory environment compared to Ag in Motion or the farms.

Conclusion: Simulating an occupational task in the laboratory may not fully reflect the demands of the task when performed in real-world settings. While greater between participant variability may be unavoidable in-field due to differences in equipment and other environmental variables, the greater humeral elevation and axial rotation demands elicited in the field environments suggest in-field research is necessary to fully capture the complexity of occupational movements.

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在萨斯喀彻温省的实验室和田间农业环境中，比较农场任务表现中的肱骨运动学变异性。

目的：农民肩部损伤的发生率很高，因此需要更好地定义与农业工作相关的运动需求。需要进行研究，以确定在实验室环境中模拟农场工作是否足以捕捉到真实农业环境中所需的运动需求。本研究的目的是比较实验室和田间地点之间农场任务表现的可变性。方法：惯性测量单元在四个模拟耕作工作任务（架空钻、铲、爬梯、提种子袋）和三个不同位置跟踪肱骨运动学；实验室，农业贸易展（“动态农业”），以及个人真实的谷物/牛农场。每个地点有10名参与者的性别和年龄相匹配。在每个任务中评估主要“移动”臂的平均和峰值肱骨抬高、平均轴向旋转和峰值内外旋转关节角。评估了参与者内部和参与者之间的可变性，以及不同地点任务表现的差异。结果：与Ag in Motion和农场相比，实验室中铲铲任务期间肱骨内旋峰值的内部变异性显着降低（F2,27 = 5.59, p 2 = 0.29）。然而，所有其他结果的内变异性在不同地区具有可比性。参与者之间的可变性在12/20结果中在实验室中最低，在7/20结果中在运动中最低，而在农场中只有一个结果最低，这表明在更高度控制的环境中参与者之间的可变性更低。最后，不同地点的架空钻、铲和爬升播种机任务的表现存在显著差异。一般来说，与Ag in Motion或农场相比，在实验室环境中发生了较低的肱骨抬高和轴向旋转。结论：在实验室中模拟职业任务可能不能完全反映在现实环境中执行任务的要求。虽然由于设备和其他环境变量的差异，在现场参与者之间可能不可避免地存在较大的差异，但在现场环境中引起的较大的肱骨抬高和轴向旋转要求表明，为了充分捕捉职业运动的复杂性，有必要进行现场研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Agromedicine PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

4.10

自引率

20.80%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Agromedicine: Practice, Policy, and Research publishes translational research, reports and editorials related to agricultural health, safety and medicine. The Journal of Agromedicine seeks to engage the global agricultural health and safety community including rural health care providers, agricultural health and safety practitioners, academic researchers, government agencies, policy makers, and others. The Journal of Agromedicine is committed to providing its readers with relevant, rigorously peer-reviewed, original articles. The journal welcomes high quality submissions as they relate to agricultural health and safety in the areas of: • Behavioral and Mental Health • Climate Change • Education/Training • Emerging Practices • Environmental Public Health • Epidemiology • Ergonomics • Injury Prevention • Occupational and Industrial Health • Pesticides • Policy • Safety Interventions and Evaluation • Technology