Department of Orthopaedic Surgery, Henry Ford Hospital, Detroit, MI, USA.
Department of Orthopaedic Surgery, Henry Ford Hospital, Detroit, MI, USA.
J Shoulder Elbow Surg. 2019 Aug;28(8):1484-1489. doi: 10.1016/j.jse.2019.01.025. Epub 2019 Apr 30.
Our hypothesis was that an increase in ball weight would result in an increase in medial elbow torque during the pitching motion.
Youth pitchers were recruited for this study and instructed to throw 5 maximum-effort fastballs from ground level using baseballs of 4 different weights: 85 g (3 oz), 113 g (4 oz), 142 g (5 oz), and 170 g (6 oz). The validated Motus sensor was used to assess medial elbow torque, arm speed, arm slot, and shoulder rotation for each pitch. Pitch velocity was measured using a radar gun. Relationships between baseball weight and pitching kinetics and/or kinematics were evaluated using linear mixed-effects analysis. An exit survey was conducted detailing the pitcher's evaluation of the ball weights used.
A total of 19 youth baseball pitchers (average age, 11.8 ± 1.1 years; age range, 9-14 years) completed the study. For every 1-oz (28-g) increase in ball weight, ball velocity decreased 2.0 ± 0.1 mph (χ = 52.68, P < .001), medial elbow torque increased 0.92 ± 0.37 newton meters (χ = 5.36, P = .02), and arm speed decreased 8.52 ± 3.68 rpm (χ = 5.03, P = .02). Shoulder rotation and arm slot were not significantly impacted by ball weight (P > .05). Survey results indicated that the 85-g (3-oz) baseball was most favored (8 of 19 pitchers) and believed to result in the highest pitch velocity (15 of 19 pitchers). The 170-g (6-oz) baseball was least favored (17 of 19 pitchers) and believed to result in the slowest pitch velocity (18 of 19 pitchers). No adverse outcomes were reported with the use of any ball weight or the mobile sensor.
Among youth pitchers, an increase in ball weight correlated with greater medial elbow torque, decreased pitch velocity, and decreased arm speed.
我们的假设是,增加球的重量会导致投球过程中肘部内侧扭矩增加。
本研究招募了青年投手,并指导他们从地面使用 4 种不同重量的棒球(3 盎司的 85 克、4 盎司的 113 克、5 盎司的 142 克和 6 盎司的 170 克)进行 5 次最大努力的快球投球。使用经过验证的 Motus 传感器评估每个投球的肘部内侧扭矩、手臂速度、臂槽和肩部旋转。使用雷达枪测量投球速度。使用线性混合效应分析评估棒球重量与投球动力学和/或运动学之间的关系。进行了一项出口调查,详细说明了投手对使用的球重的评估。
共有 19 名青年棒球投手(平均年龄 11.8 ± 1.1 岁;年龄范围 9-14 岁)完成了这项研究。每增加 1 盎司(28 克)的球重,球速就会降低 2.0 ± 0.1 英里/小时(χ=52.68,P<.001),肘部内侧扭矩增加 0.92 ± 0.37 牛顿米(χ=5.36,P=0.02),手臂速度降低 8.52 ± 3.68 rpm(χ=5.03,P=0.02)。球重对肩部旋转和臂槽没有显著影响(P>.05)。调查结果表明,最受青睐的是 85 克(3 盎司)的棒球(19 名投手中有 8 名),并认为它能产生最高的投球速度(19 名投手中有 15 名)。170 克(6 盎司)的棒球最不受青睐(19 名投手中有 17 名),并认为它会产生最慢的投球速度(19 名投手中有 18 名)。使用任何球重或移动传感器都没有报告不良后果。
在青年投手中,球重的增加与肘部内侧扭矩增加、投球速度降低和手臂速度降低有关。
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