Abstract
Numerous studies have been conducted on lower back injury caused by deeper stooped posture, which is associated with the back muscle flexion–relaxation phenomenon (FRP). Individual flexibility also affects FRP; individuals with high flexibility have the benefit of delayed FRP occurrence. This study attempted to determine the most efficient measurement of flexibility for evaluating the occurrence and degree of FRP when participants flexed their trunk forward. We recruited 40 male university students who were grouped on the basis of three flexibility measurements (toe-touch test, TTT; sit-and-reach test, SRT; modified Schober’s test, MST) into three levels (high, middle and low). Muscle activation (thoracic and lumbar erector spinae, TES and LES, respectively; hamstring, HMS) and lumbosacral angle (LSA) were recorded when the trunk flexed forward from 0° (upright) to 15°, 30°, 45°, 60°, 75° and 90°. The results indicated that trunk angle had a significant effect on three muscle activation levels and LSA. The effects of muscles and LSA varied depending on flexibility measurement. TTT significantly discriminated LES electromyography findings between high and low flexibility groups, whereas MST and SRT distinguished between high and non-high flexibility groups. The TTT values positively correlated with the time of LES FRP occurrence, showing that the higher the TTT, the slower the occurrence of FRP. This is beneficial in delaying or avoiding excessive loading on the passive tissue of the lumbar spine when performing a deeper trunk flexion.
Highlights
Studies have revealed that awkward posture, excessive exertion and repetitive work are the primary causes of musculoskeletal injuries [1]
The reliability of the repeated measurements of each flexibility measurement, muscle activation and for all participants was higher than 0.826 using an independent t test
This study suggests that flexibility grouped by modified Schober’s test (MST) did not exert a significant effect on lumbosacral angle (LSA), which was different from the results for touch test (TTT) and sit-and-reach test (SRT)
Summary
Studies have revealed that awkward posture, excessive exertion and repetitive work are the primary causes of musculoskeletal injuries [1]. This includes exposure of the static upper trunk of humans to deeper flexion postures or prolonged stooping in many workplaces [2,3,4]. Such postures are commonly observed in agriculture, manufacturing, mining and construction industries, which are more likely to employ males than females in Taiwan [5]. When considering the work experience, novices are more inclined to use the stooped working postures than the experienced workers, and this may cause higher injury risks [8,9].
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