砌砖高度对石匠生物力学负荷的影响：横断面现场研究与技术测量。

Influence of brick laying height on biomechanical load in masons: Cross-sectional field study with technical measurements.

机构信息

National Research Centre for the Working Environment, Copenhagen, Denmark.

Research Unit for Muscle Physiology and Biomechanics, Department of Sports Science and Clinical Biomechanics, University of Southern Denmark, Odense, Denmark.

出版信息

Work. 2024;79(1):459-470. doi: 10.3233/WOR-230325.

DOI:10.3233/WOR-230325

PMID:38517831

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11492044/

Abstract

BACKGROUND

Work-related musculoskeletal disorders (WMSDs) located in the low back and neck/shoulder regions are major concerns for both workers, workplaces, and society. Masons are prone to WMSD, because their work is characterized by repetitive work and high physical workload. However, the knowledge on the physical workload during bricklaying is primarily based on subjective measurements.

OBJECTIVE

This cross-sectional field study with technical measurements aimed to quantify physical workload in terms of muscular activity and degree of forward bending during bricklaying at different working heights among masons, i.e., knee, hip, shoulder, and above shoulder height.

METHODS

Twelve male (36.1±16.1 years) experienced masons participated in a cross-sectional field study with technical measurements. Surface electromyography from erector spinae longissimus and upper trapezius muscles and an inertial measurement unit-sensor placed on the upper back were used to assess the physical workload (level of muscle activation and degree of forward bending) different bricklaying heights. Manual video analysis was used to determine duration of work tasks, frequency, type, and working height. The working heights were categorized as 'knee', 'hip', 'shoulder', and 'above shoulder'. The 95 percentiles of the normalized Root Mean Square (RMSn) values were extracted assess from erector spinae and trapezius recordings to assess strenuous level muscle of muscle activation.

RESULTS

The RMSn of dominant erector spinae muscle increased from hip- to shoulder height (from 26.6 to 29.6, P < 0.0001), but not from hip to above shoulder height and decreased from hip to knee height (from 26.6 to 18.9, P < 0.0001). For the dominant trapezius muscle, the RMSn increased from hip- to shoulder- and above shoulder height (from 13.9 to 19.7 and 24.0, respectively, P < 0.0001) but decreased from hip- to knee height (from 13.9 to 11.5, P < 0.0001). Compared to hip height (27.9°), an increased forward bending was detected during bricklaying at knee height (34.5°, P < 0.0001) and a decreased degree of forward bending at shoulder- and above shoulder height (17.6° and 12.5°, P < 0.0001, respectively).

CONCLUSION

Based on technical measurements, bricklaying at hip height showed the best compromise between muscular load and degree of forward bending. This study contributes to the development of the work environment for masons and can help guide preventive initiatives to reduce physical workload.

摘要

背景

与工作相关的肌肉骨骼疾病（WMSD）位于背部和颈部/肩部区域，是工人、工作场所和社会的主要关注点。瓦工容易患 WMSD，因为他们的工作特点是重复性工作和高体力负荷。然而，关于砌砖过程中的体力负荷的知识主要基于主观测量。

目的

本横断面现场研究采用技术测量，旨在定量评估瓦工在不同工作高度（膝高、髋高、肩高和肩高以上）砌砖时肌肉活动和前屈程度的体力负荷。

方法

12 名男性（36.1±16.1 岁）经验丰富的瓦工参加了一项横断面现场研究，采用技术测量。从竖脊肌和上斜方肌的表面肌电图和放置在上背部的惯性测量单元传感器用于评估不同砌砖高度的体力负荷（肌肉激活水平和前屈程度）。手动视频分析用于确定工作任务的持续时间、频率、类型和工作高度。工作高度分为“膝高”、“髋高”、“肩高”和“肩高以上”。提取竖脊肌和斜方肌记录的归一化均方根（RMSn）值的 95%百分位数，以评估肌肉激活的剧烈水平。

结果

从髋高到肩高，主导竖脊肌的 RMSn 增加（从 26.6 增加到 29.6，P<0.0001），但从髋高到肩高以上高度和从髋高到膝高高度则减少（从 26.6 减少到 18.9，P<0.0001）。对于主导的斜方肌，RMSn 从髋高到肩高和肩高以上高度增加（从 13.9 增加到 19.7 和 24.0，分别，P<0.0001），但从髋高到膝高高度减少（从 13.9 减少到 11.5，P<0.0001）。与髋高（27.9°）相比，在膝高（34.5°，P<0.0001）和在肩高和肩高以上高度（17.6°和 12.5°，P<0.0001）的砌砖过程中，前屈程度增加，前屈程度降低。