The effect of head and gaze orientation on spine kinematics during forward flexion |
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Affiliation: | 1. Department of Kinesiology and Applied Physiology, University of Delaware, Newark, DE;2. Interdisciplinary Program in Biomechanics and Movement Science, University of Delaware, Newark, DE;3. School of Health and Kinesiology, Georgia Southern University, Statesboro, GA;4. The Brody School of Medicine, East Carolina University, Greenville, NC;1. School of Health Sciences, The University of Newcastle, Australia;2. Active Living Research Program, Hunter Medical Research Institute, Newcastle, Australia;3. Centre for Resources Health and Safety, The University of Newcastle, Australia;4. School of Health Sciences, The University of Sydney, Australia |
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Abstract: | Compound, or awkward, spine postures have been suggested as a biomechanical risk factor for low back injury. This experiment investigates the influence of head (i.e. head-on-torso) and gaze (i.e. eye-in-head) orientation on three-dimensional (3D) neck and spine range of motion (ROM) during forward flexion movements. To emulate previous experimental protocols and replicate real-world scenarios, a sample of ten young, healthy males (mean ± standard deviation: age: 20.8 ± 1.03 years, height: 180.2 ± 7.36 cm, and mass: 81.9 ± 6.47 kg) completed forward flexion movements with a constrained and unconstrained pelvis, respectively. Surface kinematics were gathered from the head and spine (C7-S1). Movements were completed under a baseline condition as well as upward, downward, leftward, and rightward head and gaze orientations. For each condition, mean neck angle and inter-segmental spine (C7T1 through L5S1) ROM were evaluated. The results demonstrate that directed head and gaze orientations can influence the ROM of specific spine regions during a forward flexion task. With leftward and rightward directed head and gaze orientations, the neck became increasingly twisted and superior thoracic segments (i.e. C7T1-T2T3) were significantly more twisted during the leftward head orientation condition than the baseline condition. With upward and downward directed head and gaze orientations, a similar effect was observed for neck and superior thoracic (i.e. C7T1-T4T5) flexion-extension. Interestingly, it was also demonstrated that changes in upward/downward head orientation can also change flexion-extension kinematics of the thoracolumbar region as well (i.e. T7T8-L1L2), suggesting that head postures requiring neck extension may also promote extension throughout these spine regions. These findings provide evidence for a functional link between changes in neck flexion-extension posture and flexion-extension movement of the thoracolumbar region of the spine. |
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