Camp Christopher L, Tubbs Travis G, Fleisig Glenn S, Dines Joshua S, Dines David M, Altchek David W, Dowling Brittany
Sports Medicine and Shoulder Service, Department of Orthopedic Surgery, Hospital for Special Surgery, New York, New York, USA.
Research and Development, Motus Global, Rockville Centre, New York, USA.
Am J Sports Med. 2017 Nov;45(13):3030-3035. doi: 10.1177/0363546517719047. Epub 2017 Aug 14.
Likely due to the high level of strain exerted across the elbow during the throwing motion, elbow injuries are on the rise in baseball. To identify at-risk athletes and guide postinjury return-to-throw programs, a better understanding of the variables that influence elbow varus torque is desired.
To describe the within-subject relationship between elbow varus torque and arm slot and arm rotation in professional baseball pitchers.
Descriptive laboratory study.
A total of 81 professional pitchers performed 82,000 throws while wearing a motusBASEBALL sensor and sleeve. These throws represented a combination of throw types, such as warm-up/catch, structured long-toss, bullpen throwing from a mound, and live game activity. Variables recorded for each throw included arm slot (angle of the forearm relative to the ground at ball release), arm speed (maximal rotational velocity of the forearm), arm rotation (maximal external rotation of the throwing arm relative to the ground), and elbow varus torque. Linear mixed-effects models and likelihood ratio tests were used to estimate the relationship between elbow varus torque and arm slot, arm speed, and arm rotation within individual pitchers.
All 3 metrics-arm slot (χ = 428, P < .001), arm speed (χ = 57,683, P < .001), and arm rotation (χ = 1392, P < .001)-were found to have a significant relationship with elbow varus torque. Within individual athletes, a 1-N.m increase in elbow varus torque was associated with a 13° decrease in arm slot, a 116 deg/s increase in arm speed, and an 8° increase in arm rotation.
Elbow varus torque increased significantly as pitchers increased their arm rotation during the arm cocking phase, increased the rotational velocity of their arm during the arm acceleration phase of throwing, and decreased arm slot at ball release. Thus, shoulder flexibility, arm speed, and elbow varus torque (and likely injury risk) are interrelated and should be considered collectively when treating pitchers.
It is well established that elbow varus torque is related to ulnar collateral ligament injuries in overhead throwers. This study describes the relationship of arm slot, arm speed, and arm rotation to elbow varus torque in an attempt to identify modifiable risk factors for injury.
在投球动作中,肘部承受的应力水平可能较高,因此棒球运动中肘部损伤呈上升趋势。为了识别有风险的运动员并指导伤后恢复投球计划,需要更好地了解影响肘内翻扭矩的变量。
描述职业棒球投手肘内翻扭矩与手臂投球位置及手臂旋转之间的个体内关系。
描述性实验室研究。
81名职业投手在佩戴motusBASEBALL传感器和护臂的情况下共进行了82000次投球。这些投球包括多种投球类型,如热身/接球、有组织的长传、从投手丘进行牛棚投球以及实战比赛活动。每次投球记录的变量包括手臂投球位置(球出手时前臂相对于地面的角度)、手臂速度(前臂的最大旋转速度)、手臂旋转(投球手臂相对于地面的最大外旋角度)以及肘内翻扭矩。使用线性混合效应模型和似然比检验来估计个体投手肘内翻扭矩与手臂投球位置、手臂速度和手臂旋转之间的关系。
发现所有三个指标——手臂投球位置(χ = 428,P <.001)、手臂速度(χ = 57683,P <.001)和手臂旋转(χ = 1392,P <.001)——均与肘内翻扭矩存在显著关系。在个体运动员中,肘内翻扭矩每增加1 N·m,与手臂投球位置降低13°、手臂速度增加116度/秒以及手臂旋转增加8°相关。
随着投手在手臂后摆阶段增加手臂旋转、在手臂加速投球阶段增加手臂旋转速度以及在球出手时降低手臂投球位置,肘内翻扭矩显著增加。因此,肩部灵活性、手臂速度和肘内翻扭矩(以及可能的受伤风险)相互关联,在治疗投手时应综合考虑。
众所周知,肘内翻扭矩与过头投掷运动员的尺侧副韧带损伤有关。本研究描述了手臂投球位置、手臂速度和手臂旋转与肘内翻扭矩的关系,试图确定可改变的损伤风险因素。
