The effect of unstable loading versus unstable support conditions on spine rotational stiffness and spine stability during repetitive lifting |
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Authors: | Shawn M. Beaudette Ryan B. Graham Stephen H.M. Brown |
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Affiliation: | 1. Department of Human Health and Nutritional Sciences, University of Guelph, Guelph, ON, Canada;2. School of Physical & Health Education, Nipissing University, North Bay, ON, Canada |
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Abstract: | Lumbar spine stability has been extensively researched due to its necessity to facilitate load-bearing human movements and prevent structural injury. The nature of certain human movement tasks are such that they are not equivalent in levels of task-stability (i.e. the stability of the external environment). The goal of the current study was to compare the effects of dynamic lift instability, administered through both the load and base of support, on the dynamic stability (maximal Lyapunov exponents) and stiffness (EMG-driven model) of the lumbar spine during repeated sagittal lifts. Fifteen healthy males performed 23 repetitive lifts with varying conditions of instability at the loading and support interfaces. An increase in spine rotational stiffness occurred during unstable support scenarios resulting in an observed increase in mean and maximum Euclidean norm spine rotational stiffness (p=0.0011). Significant stiffening effects were observed in unstable support conditions about all lumbar spine axes with the exception of lateral bend. Relative to a stable control lifting trial, the addition of both an unstable load as well as an unstable support did not result in a significant change in the local dynamic stability of the lumbar spine (p=0.5592). The results suggest that local dynamic stability of the lumbar spine represents a conserved measure actively controlled, at least in part, by trunk muscle stiffening effects. It is evident therefore that local dynamic stability of the lumbar spine can be modulated effectively within a young-healthy population; however this may not be the case in a patient population. |
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Keywords: | Lifting Spine stability Rotational stiffness Muscle Neuromuscular control Lyapunov exponents |
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