4.5 Article

Effects of load carrying techniques on gait parameters, dynamic balance, and physiological parameters during a manual material handling task

期刊

出版社

EMERALD GROUP PUBLISHING LTD
DOI: 10.1108/ECAM-03-2021-0245

关键词

Gait; Balance; Fatigue; Construction safety; Wearable sensors

资金

  1. General Research Fund (GRF) Grant entitled In Search of a Suitable Tool for Proactive Physical Fatigue Assessment: An Invasive to Non-invasive Approach [BRE/PolyU 15210720]
  2. General Research Fund (GRF) Grant entitled The development and validation of a noninvasive tool to monitor mental and physical stress in construction workers [BRE/PolyU 152047/19E]

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The study found that carrying loads in both hands resulted in better gait symmetry and dynamic balance compared to carrying loads on the shoulder or head. Construction managers/instructors should recommend workers to carry loads in both hands to improve gait symmetry and dynamic balance, reducing the risk of falls.
Purpose Since construction workers often need to carry various types of loads in their daily routine, they are at risk of sustaining musculoskeletal injuries. Additionally, carrying a load during walking may disturb their walking balance and lead to fall injuries among construction workers. Different load carrying techniques may also cause different extents of physical exertion. Therefore, the purpose of this paper is to examine the effects of different load-carrying techniques on gait parameters, dynamic balance, and physiological parameters in asymptomatic individuals on both stable and unstable surfaces. Design/methodology/approach Fifteen asymptomatic male participants (mean age: 31.5 +/- 2.6 years) walked along an 8-m walkway on flat and foam surfaces with and without a load thrice using three different techniques (e.g. load carriage on the head, on the dominant shoulder, and in both hands). Temporal gait parameters (e.g. gait speed, cadence, and double support time), gait symmetry (e.g. step time, stance time, and swing time symmetry), and dynamic balance parameters [e.g. anteroposterior and mediolateral center of pressure (CoP) displacement, and CoP velocity] were evaluated. Additionally, the heart rate (HR) and electrodermal activity (EDA) was assessed to estimate physiological parameters. Findings The gait speed was significantly higher when the load was carried in both hands compared to other techniques (Hand load, 1.02 ms vs Head load, 0.82 ms vs Shoulder load, 0.78 ms). Stride frequency was significantly decreased during load carrying on the head than the load in both hands (46.5 vs 51.7 strides/m). Step, stance, and swing time symmetry were significantly poorer during load carrying on the shoulder than the load in both hands (Step time symmetry ration, 1.10 vs 1.04; Stance time symmetry ratio, 1.11 vs 1.05; Swing time symmetry ratio, 1.11 vs 1.04). The anteroposterior (Shoulder load, 17.47 mm vs Head load, 21.10 mm vs Hand load, -5.10 mm) and mediolateral CoP displacements (Shoulder load, -0.57 mm vs Head load, -1.53 mm vs Hand load, -3.37 ms) significantly increased during load carrying on the shoulder or head compared to a load in both hands. The HR (Head load, 85.2 beats/m vs Shoulder load, 77.5 beats/m vs No load, 69.5 beats/m) and EDA (Hand load, 14.0 mu S vs Head load, 14.3 mu S vs Shoulder load, 14.1 mu S vs No load, 9.0 mu S) were significantly larger during load carrying than no load. Research limitations/implications The findings suggest that carrying loads in both hands yields better gait symmetry and dynamic balance than carrying loads on the dominant shoulder or head. Construction managers/instructors should recommend construction workers to carry loads in both hands to improve their gait symmetry and dynamic balance and to lower their risk of falls. Practical implications The potential changes in gait and balance parameters during various load carrying methods will aid the assessment of fall risk in construction workers during loaded walking. Wearable insole sensors that monitor gait and balance in real-time would enable safety managers to identify workers who are at risk of falling during load carriage due to various reasons (e.g. physical exertion, improper carrying techniques, fatigue). Such technology can also empower them to take the necessary steps to prevent falls. Originality/value This is the first study to use wearable insole sensors and a photoplethysmography device to assess the impacts of various load carrying approaches on gait parameters, dynamic balance, and physiological measures (i.e. HR and EDA) while walking on stable and unstable terrains.

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