当骑C1速度独木舟时,人体姿势系统的不对称负荷的选择生物力学方面及其对肌肉不平衡发展的影响。

Pub Date : 2021-11-30
Radim Štryncl, Václav Bittner, Petr Šifta, Michal Tregler, Petr Kubovy, Karel Jelen, David Ravnik
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引用次数: 0

摘要

目的:本研究的主要目的是分析骑C1速度独木舟时人体姿势系统不对称负荷的生物力学方面及其对肌肉不平衡发展的影响。方法:对模拟皮划艇运动员在逆流池中向前划水(N = 9)进行三维运动学分析,对选定个体(N = 5)进行MRI数据分析,对实际顶级划艇运动员(N = 12)进行视频分析,对运动进行运动学分析。结果:当骑C1速度独木舟时,体位系统暴露于两种不对称载荷。首先,存在横向不对称,这源于这种船的单侧划桨的本质。皮划艇运动员必须通过将身体重心移到高于跪着下肢的位置来补偿随之而来的不稳定性。这种效果是通过所谓的骨盆侧化从划水一侧和这一侧向跪着下肢倾斜来实现的。另一种不对称与身体的前后运动及其与中性姿势的时间偏差有关。在身体下部的一般固定运动和身体上部的阶段性运动之间存在明显的不比例已被证实。这些不对称的姿势导致支撑下肢一侧的腰方肌明显的单侧过载(没有桨的一侧),以及腰椎区域脊柱矫直器的过载,特别是在支撑下肢的部分,以及髂腰肌的双侧不对称过载,此外还发生在不同的等距处。MRI数据分析表明,在纵向训练中,体位系统负荷的体积和强度的横向不平衡是导致跪侧和支撑下肢侧髂腰肌和腰方肌横截面不同的原因。两组肌肉的横截面更大,具有统计学显著性水平α = 0.05,因此可以预期支撑下肢一侧的力量。结论:当在C1上划独木舟时,腰方肌在支持下肢的部分(无桨的一侧)发生明显的单侧超载。此外,腰椎区域的脊柱矫直器超负荷,特别是在支撑下肢的部分。最后但并非最不重要的是,髂腰肌的双侧不对称超载发生。
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Selected biomechanical aspects of the asymmetrical loading of the human postural system when riding the C1 speed canoe and their influence on the development of muscular imbalances.

Objectives: The main aim of this study was to analyse selected biomechanical aspects of the asymmetrical loading of the human postural system when riding the C1 speed canoe and their influence on the development of muscular imbalances.

Methods: 3D kinematic analysis of a simulated forward stroke of the canoeist in a pool with a counter-current (N = 9) and analysis of MRI data with selected individuals (N = 5), videoanalysis of actual paddling top athletes (N = 12), the kinesiological analysis of movement.

Results: Can be stated that when riding a C1 speed canoe the postural system is exposed to two types of asymmetric loading. In the first place, there is lateral asymmetry, which stems from the very nature of the one-sided paddling on this type of vessel. The canoeist has to compensate for the consequent instability by shifting the body's centre of gravity higher above the kneeling lower limb. This effect is achieved by the so-called pelvic lateralisation from the paddling side and by this side's skewing to the kneeling lower limb. Another asymmetry is connected to the forward-backward body movement and its time-dependent deviation from the neutral posture. A significant disproportion between generally fixation movements of the lower part of the body and phasic movements of the upper part of the body has been confirmed. These asymmetrical positions result in a significant unilateral overloading of the quadratus lumborum on the side of the supporting lower limb (side without the paddle), as well as an overloading of the spine straighteners in the lumbar area, in particular on the part of a supporting lower limb, and bilateral yet asymmetric overloading of m. iliopsoas, which in addition takes place in different isometries. The analysis of MRI data indicates that, during longitudinal training, lateral disproportion in the volume and intensity of postural system loading is the cause of different cross sections of the iliopsoas muscle and quadratus lumborum muscle on the side of the kneeling and supporting lower limbs. With both muscles, larger cross sections with a statistical significance level α = 0.05 and thus also strength on the side of the supporting lower limb can be expected.

Conclusion: When canoeing on the C1, a significant unilateral overloading occurs with m. quadratus lumborum on the part of the supporting lower limb (side without paddle). Furthermore, spine straighteners in the lumbar area are overloaded, in particular in the part of the supporting lower limb. Last but not least however, the bilateral asymmetric overloading of m. iliopsoas occurs.

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