Plummer Hillary A, Oliver Gretchen D, Powers Christopher M, Michener Lori A
University of Southern California, Los Angeles, CA, USA.
Auburn University, Auburn, AL, USA.
Int J Sports Phys Ther. 2018 Feb;13(1):58-65.
Impaired trunk motion during pitching may be a risk factor for upper extremity injuries. Specifically, increased forces about the shoulder and elbow have been observed in pitchers with excessive contralateral trunk lean during pitching. Because of the difficulty in identifying abnormal trunk motions during a high-speed task such as pitching, a clinical screening test is needed to identify pitchers who have impaired trunk motion during pitching.
HYPOTHESIS/PURPOSE: The purpose of this study was to determine the relationship between the degree of lateral trunk lean during the single-leg squat and amount of trunk lean during pitching and if trunk lean during pitching can be predicted from lean during the single-leg squat.
Controlled Laboratory Study; Cross-sectional.
Seventy-three young baseball pitchers (11.4 ± 1.7 years; 156.3 ± 11.9 cm; 50.5 ± 8.8 kg) participated. An electromagnetic tracking system was used to obtain trunk kinematic data during a single-leg squat task (lead leg) and at maximum shoulder external rotation of a fastball pitch. Pearson correlation coefficients for trunk lean during the single-leg squat and pitching were calculated. A linear regression analysis was performed to determine if trunk lean during pitching can be predicted from lean during the single-leg squat.
There was a positive correlation between trunk lean during the single-leg squat and trunk lean during pitching (r = 0.53; p<0.001). Lateral trunk lean during the single-leg squat predicted the amount of lateral trunk lean during pitching (R = 0.28; p < 0.001).
A moderate positive correlation was observed between trunk lean during an SLS and pitching. Trunk lean during the single-leg squat explained 28% of the variance in trunk lean during pitching.
Diagnosis, level 3.
投球过程中躯干运动受损可能是上肢受伤的一个风险因素。具体而言,在投球时对侧躯干过度倾斜的投手,其肩部和肘部周围的力量会增加。由于在诸如投球这样的高速任务中难以识别异常的躯干运动,因此需要一种临床筛查测试来识别在投球时躯干运动受损的投手。
假设/目的:本研究的目的是确定单腿深蹲时躯干侧倾程度与投球时躯干倾斜量之间的关系,以及是否可以从单腿深蹲时的倾斜情况预测投球时的躯干倾斜。
对照实验室研究;横断面研究。
73名年轻棒球投手(11.4±1.7岁;身高156.3±11.9厘米;体重50.5±8.8千克)参与研究。使用电磁跟踪系统在单腿深蹲任务(领先腿)期间以及快球投球的最大肩部外旋时获取躯干运动学数据。计算单腿深蹲和投球时躯干倾斜的皮尔逊相关系数。进行线性回归分析以确定是否可以从单腿深蹲时的倾斜情况预测投球时的躯干倾斜。
单腿深蹲时的躯干倾斜与投球时的躯干倾斜呈正相关(r = 0.53;p<0.001)。单腿深蹲时的躯干侧倾可预测投球时的躯干侧倾量(R = 0.28;p < 0.001)。
在单腿深蹲和投球时的躯干倾斜之间观察到中等程度的正相关。单腿深蹲时的躯干倾斜解释了投球时躯干倾斜差异的28%。
诊断,3级。