全身负重对大学生体操运动员手掌压力分布的影响。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Noah M Scigliano, Jessica E Goetz, Ignacio Garcia Fleury, Kevin N Dibbern, Krit Petrachaianan, Joseph A Buckwalter V
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引用次数: 0

摘要

人们对全身负荷下的手腕和手部生物力学尚不完全了解。为了确定手部负荷中潜在的解剖学相关差异,15 名退役大学生运动员在新型 emed® 压力平台系统上完成了 45 秒钟的倒立。在稳定阶段对压力中心(CoP)和掌面上的力分布进行了分析。计算了四个手掌解剖亚区域的最大力、平均压力和接触面积,这四个亚区域是:下跖骨、趾骨、掌骨和手指。这些值与参与者在负重计算机断层扫描机上进行倒立时获得的尺侧方差测量值相关。约 93% 的参与者将其 CoP 移向其惯用手(p < 0.001),在所有参与者中,惯用手施加的最大力量比非惯用手平均高出 8.91% (p = 0.002)。总平均用力比例最高的是下跖区(47.1%)和上跖区(36.5%)。尺侧方差每增加 1.00 毫米,下跖区域的最大力量就会增加 2.8%(p = 0.037)。这项调查强调了体操手优势对左右手重量分配的作用,以及在倒立过程中耳下区在分配压力方面的重要性。调查还表明,力量通过手腕向手掌的传递取决于桡肘的位置。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The effect of full-body weight-bearing on palmar pressure distribution in collegiate-level gymnasts.

Wrist and hand biomechanics under full-body load are not fully understood. To identify potential anatomy-related differences in hand loading, 15 former collegiate athletes completed a 45-second handstand on a novel emed® pressure platform system. Center of pressure (CoP) and force distribution across the palmar surface were analysed during the stabilised phase. Maximum force, mean pressure, and contact area were calculated in four palmar anatomic subregions: hypothenar, thenar, metacarpals, and fingers. These values were related to ulnar variance measurements obtained from a participant handstand hold in a weight-bearing computed tomography machine. About 93% of participants shifted their CoP towards their dominant hand (p  <  0.001), and among all participants, the dominant hand applied an average of 8.91% (p  =  0.002) higher maximum force than the nondominant hand. The proportion of total mean force was highest in the hypothenar (47.1%) and thenar regions (36.5%). Every 1.00 mm increase in ulnar variance corresponded to a 2.8% increase in maximum force in the hypothenar region (p = 0.037). This investigation emphasises the role of gymnastics hand dominance on left/right hand weight distribution and the importance of the hypothenar zone in distributing pressure during handstands. It also indicates that force transmission through the wrist to the palm is contingent on radioulnar positioning.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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