Schram Ben, Furness James, Kemp-Smith Kevin, Sharp Jason, Cristini Matthew, Harvie Daniel, Keady Emma, Ghobrial Maichel, Tussler Joshoa, Hing Wayne, Nessler Jeff, Becker Matthew
Water Based Research Unit, Bond Institute of Health and Sport, Bond University, Robina, QLD, Australia.
Faculty of Health Science and Medicine, Bond Institute of Health and Sport, Bond University, Robina, QLD, Australia.
PeerJ. 2019 Nov 1;7:e8006. doi: 10.7717/peerj.8006. eCollection 2019.
Stand-up paddle boarding (SUP) is a rapidly growing global aquatic sport, with increasing popularity among participants within recreation, competition and rehabilitation. To date, few scientific studies have focused on SUP. Further, there is no research examining the biomechanics of the SUP paddle stroke. The purpose of this study was to investigate whether variations in kinematics existed among experienced and inexperienced SUP participants using three-dimensional motion analysis. This data could be of significance to participants, researchers, coaches and health practitioners to improve performance and inform injury minimization strategies.
A cross-sectional observational design study was performed with seven experienced and 19 inexperienced paddlers whereby whole-body kinematic data were acquired using a six-camera Vicon motion capture system. Participants paddled on a SUP ergometer while three-dimensional range of motion (ROM) and peak joint angles were calculated for the shoulders, elbows, hips and trunk. Mann-Whitney tests were conducted on the non-normally distributed data to evaluate differences between level of expertise.
Significant differences in joint kinematics were found between experienced and inexperienced participants, with inexperienced participants using greater overall shoulder ROM (78.9° ± 24.9° vs 56.6° ± 17.3°, = 0.010) and less hip ROM than the experienced participants (50.0° ± 18.5° vs 66.4° ± 11.8°, = 0.035). Experienced participants demonstrated increased shoulder motion at the end of the paddle stoke compared to the inexperienced participants (74.9° ± 16.3° vs 35.2° ± 28.5°, = 0.001 minimum shoulder flexion) and more extension at the elbow (6.0° ± 9.2° minimum elbow flexion vs 24.8° ± 13.5°, = 0.000) than the inexperienced participants.
The results of this study indicate several significant kinematic differences between the experienced and inexperienced SUP participants. These variations in technique were noted in the shoulder, elbow and hip and are evident in other aquatic paddling sports where injury rates are higher in these joints. These finding may be valuable for coaches, therapists and participants needing to maximize performance and minimize injury risk during participation in SUP.
站立式桨板运动(SUP)是一项在全球迅速发展的水上运动,在休闲、竞赛和康复领域的参与者中越来越受欢迎。迄今为止,很少有科学研究关注SUP。此外,尚无研究探讨SUP划桨动作的生物力学。本研究的目的是使用三维运动分析来调查经验丰富和缺乏经验的SUP参与者在运动学方面是否存在差异。这些数据对于参与者、研究人员、教练和健康从业者提高表现并制定伤害最小化策略可能具有重要意义。
对7名经验丰富的桨手和19名缺乏经验的桨手进行了一项横断面观察性设计研究,通过六台摄像机的Vicon运动捕捉系统获取全身运动学数据。参与者在SUP测力计上划桨,同时计算肩部、肘部、髋部和躯干的三维运动范围(ROM)和关节峰值角度。对非正态分布的数据进行曼-惠特尼检验,以评估专业水平之间的差异。
经验丰富和缺乏经验的参与者之间在关节运动学上存在显著差异,缺乏经验的参与者总体肩部ROM更大(78.9°±24.9°对56.6°±17.3°,P = 0.010),髋部ROM比经验丰富的参与者小(50.0°±18.5°对66.4°±11.8°,P = 0.035)。与缺乏经验的参与者相比,经验丰富的参与者在划桨动作结束时肩部运动增加(最小肩部屈曲74.9°±16.3°对35.2°±28.5°,P = 0.001),肘部伸展更多(最小肘部屈曲6.0°±9.2°对24.8°±13.5°,P = 0.000)。
本研究结果表明经验丰富和缺乏经验的SUP参与者之间存在一些显著的运动学差异。这些技术差异在肩部、肘部和髋部都有体现,在这些关节损伤率较高的其他水上划桨运动中也很明显。这些发现对于需要在参与SUP时最大化表现并最小化受伤风险的教练、治疗师和参与者可能很有价值。
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