Elbow Flexion Excursion: Intra- and Inter-Throwing Arm Kinetic Evaluations in High School and Professional Baseball Pitchers.

The American Journal of Sports Medicine Pub Date : 2025-05-12 DOI:10.1177/03635465251338080

Joseph E Manzi,Brittany Dowling,Jennifer Estrada,Suleiman Y Sudah,Jay Moran,Kathryn D McElheny,Brandon J Erickson,Joseph Ruzbarsky,Michael C Ciccotti,Michael G Ciccotti,Joshua S Dines

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Abstract

BACKGROUND Elbow flexion at stagnant time points of the pitch has been associated with increased elbow varus torque (EVT) and elbow injury history. PURPOSE To determine how elbow flexion angle throughout the pitch (excursion) between individual pitchers and a cohort of pitchers influences throwing arm kinetics in high school (HS) and professional (PRO) pitchers. STUDY DESIGN Descriptive laboratory study. METHODS HS (n = 59) and PRO (n = 288) pitchers were instructed to throw 8 to 12 fastball pitches evaluated with 3-dimensional motion capture system (480 Hz). Linear regression models were developed to examine the association between elbow flexion excursion with ball velocity and throwing arm kinetics. An intrapitcher analysis utilizing a linear mixed model was also used, introducing pitchers as a random effect. RESULTS The mean elbow flexion excursion was significantly greater for HS (70° ± 22°) compared with PRO (63° ± 21°) pitchers (P < .001), while the mean normalized EVT was significantly less for HS pitchers (3.9% ± 0.7% vs 4.8% ± 0.8% body weight [BW] × body height; P < .001). For every 1 SD increase in elbow excursion, ball velocity increased by 0.8 to 1.0 m/s (approximately 2 mph) for intra- and interanalyses (P max = 0.006; β = 0.31-0.39) for HS pitchers, while it increased by only 0.2 to 0.4 m/s (<1 mph) for PRO pitchers (P max = 0.016; β = 0.10-0.17). EVT increased by 0.34 to 0.40 SD for every 1 SD increase in elbow excursion for intra- and interanalyses for HS pitchers and by 0.13 to 0.22 SD for PRO pitchers. Elbow medial force increased by 1.9% to 2.3% BW for every 1 SD increase in elbow excursion for intra- and interanalyses of HS pitchers (β = 0.35-0.44) and by 1.4% to 1.7% BW increase for PRO pitchers (β = 0.23-0.27). CONCLUSION PRO pitchers have decreased elbow flexion excursion compared with HS pitchers. This may be an advantageous mechanism by which to minimize throwing arm kinetics, including EVT and elbow medial force, supported by both intra- and interpitcher analyses. Ball velocity benefits with increased elbow excursion were marginal for both cohorts. CLINICAL RELEVANCE In support of previous literature suggesting that increased elbow flexion at later portions of the pitch is associated with increased EVT and injury history, this study further substantiates that this may be deleterious kinematics to baseball pitchers.

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肘关节屈曲偏移：高中和职业棒球投手内投和内投手臂动力学评估。

背景：在球场停滞时间点的弓屈曲与肘关节内翻扭矩（EVT）增加和肘关节损伤史有关。目的确定个人投手和一群投手在整个投球过程中的肘部屈曲角度（偏移）如何影响高中（HS）和专业（PRO）投手的投球臂动力学。研究设计描述性实验室研究。方法采用三维运动捕捉系统（480 Hz）对shs（59）和PRO（288）两组投手投出8 ~ 12个快速球进行评估。建立了线性回归模型来检验肘关节屈曲偏移与球速度和抛臂动力学之间的关系。利用线性混合模型的投手内部分析也被使用，将投手作为随机效应引入。结果HS组肘关节屈曲偏移（70°±22°）明显大于PRO组（63°±21°）（P < 0.001）， HS组平均归一化EVT显著小于PRO组（体重[BW] ×身高）（3.9%±0.7% vs 4.8%±0.8%）；P < 0.001)。弯头偏移每增加1 SD，内部和内部分析的球速度增加0.8至1.0 m/s（约2 mph） (P max = 0.006；β = 0.31-0.39)，而PRO投手仅增加0.2 ~ 0.4 m/s (<1 mph) (P max = 0.016；β = 0.10-0.17)。对于HS投手，肘部偏移每增加1 SD， EVT增加0.34至0.40 SD，对于PRO投手，EVT增加0.13至0.22 SD。在内部和内部分析中，HS投手肘部偏移每增加1 SD，肘部内侧力增加1.9%至2.3% BW (β = 0.35-0.44)， PRO投手肘部内侧力增加1.4%至1.7% BW （β = 0.23-0.27）。结论与HS投手相比，pro投手肘关节屈曲偏移明显减少。这可能是一种有利的机制，通过它可以最小化投掷臂动力学，包括EVT和肘关节内侧力，这得到了投手内部和投手之间分析的支持。增加肘部运动对球速度的好处在两个队列中都是边际的。临床相关性：为了支持先前的文献，即在投球后期肘关节屈曲增加与EVT增加和损伤史相关，本研究进一步证实，这可能对棒球投手有害。

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The American Journal of Sports Medicine

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