B Olivier, N Boulle, J Jacobs, O L Obiora, C MacMillan, J Liebenberg, S McErlain-Naylor
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Time-normalised joint and segment angle time histories from back foot contact to follow-through ground contacts were compared between groups via statistical parametric mapping. Whole movement and subphase durations were also compared.</p><p><strong>Results: </strong>Left-handed players displayed significantly more trunk flexion from 49%-56% of the total movement (ball release occurred at 54%; <i>p</i> = 0.037) and had shorter back foot contact durations on average (0.153 <i>vs</i> 0.177 s; <i>p</i> = 0.036) compared to right-handed players.</p><p><strong>Conclusion: </strong>Left- and right-handed bowlers displayed similar sagittal plane kinematics but appeared to use non-sagittal plane movements differently around the time of ball release. The kinematic differences identified in this study can inform future research investigating the effect of hand dominance on bowling performance and injury risk.</p>","PeriodicalId":31065,"journal":{"name":"South African Journal of Sports Medicine","volume":" ","pages":"v35i1a15144"},"PeriodicalIF":0.0000,"publicationDate":"2023-06-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10798611/pdf/","citationCount":"0","resultStr":"{\"title\":\"Kinematic differences between left- and right-handed cricket fast bowlers during the bowling action.\",\"authors\":\"B Olivier, N Boulle, J Jacobs, O L Obiora, C MacMillan, J Liebenberg, S McErlain-Naylor\",\"doi\":\"10.17159/2078-516X/2023/v35i1a15144\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Despite differences between left- and right-handed athletes in other sports, minimal evidence exists regarding biomechanical similarities and differences between left- and right-handed cricket fast bowlers performing an equivalent task.</p><p><strong>Objectives: </strong>This study aimed to compare the kinematics between left and right-handed fast bowlers performing an equivalent task (i.e. bowling 'over the wicket' to a batter of the same handedness as the bowler).</p><p><strong>Methods: </strong>Full body, three-dimensional kinematic data for six left-handed and 20 right-handed adolescent, male, fast bowlers were collected using the Xsens inertial measurement system. Time-normalised joint and segment angle time histories from back foot contact to follow-through ground contacts were compared between groups via statistical parametric mapping. Whole movement and subphase durations were also compared.</p><p><strong>Results: </strong>Left-handed players displayed significantly more trunk flexion from 49%-56% of the total movement (ball release occurred at 54%; <i>p</i> = 0.037) and had shorter back foot contact durations on average (0.153 <i>vs</i> 0.177 s; <i>p</i> = 0.036) compared to right-handed players.</p><p><strong>Conclusion: </strong>Left- and right-handed bowlers displayed similar sagittal plane kinematics but appeared to use non-sagittal plane movements differently around the time of ball release. 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引用次数: 0
摘要
背景:尽管在其他运动中,左撇子和右撇子运动员之间存在差异,但很少有证据表明,在执行相同任务时,左撇子和右撇子板球快速投球运动员之间的生物力学相似性和差异性。目的:本研究旨在比较执行相同任务的左手和右手快速投球手之间的运动学(即向与投球手相同的击球手投球“过三柱门”)。方法:采用Xsens惯性测量系统,对6名左手投球手和20名右手投球手的青少年快速投球手进行全身三维运动学数据采集。通过统计参数映射比较各组之间从后脚接触到后续地面接触的时间归一化关节和段角时间历史。还比较了全运动和亚相持续时间。结果:左撇子运动员的躯干弯曲占总运动的49%-56%(球释放占54%;P = 0.037),平均后脚接触时间较短(0.153 vs 0.177 s;P = 0.036)。结论:左手投球手和右手投球手表现出相似的矢状面运动,但在球释放前后使用非矢状面运动时表现出不同。在这项研究中发现的运动学差异可以为未来研究手优势对保龄球表现和受伤风险的影响提供信息。
Kinematic differences between left- and right-handed cricket fast bowlers during the bowling action.
Background: Despite differences between left- and right-handed athletes in other sports, minimal evidence exists regarding biomechanical similarities and differences between left- and right-handed cricket fast bowlers performing an equivalent task.
Objectives: This study aimed to compare the kinematics between left and right-handed fast bowlers performing an equivalent task (i.e. bowling 'over the wicket' to a batter of the same handedness as the bowler).
Methods: Full body, three-dimensional kinematic data for six left-handed and 20 right-handed adolescent, male, fast bowlers were collected using the Xsens inertial measurement system. Time-normalised joint and segment angle time histories from back foot contact to follow-through ground contacts were compared between groups via statistical parametric mapping. Whole movement and subphase durations were also compared.
Results: Left-handed players displayed significantly more trunk flexion from 49%-56% of the total movement (ball release occurred at 54%; p = 0.037) and had shorter back foot contact durations on average (0.153 vs 0.177 s; p = 0.036) compared to right-handed players.
Conclusion: Left- and right-handed bowlers displayed similar sagittal plane kinematics but appeared to use non-sagittal plane movements differently around the time of ball release. The kinematic differences identified in this study can inform future research investigating the effect of hand dominance on bowling performance and injury risk.
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