研究重复投球对肘关节内侧动态稳定器的强度和机械性能的影响。

IF 2.9 2区 医学 Q1 ORTHOPEDICS
Tomonobu Ishigaki, Issei Furuto, Raimu Sato, Yosuke Kurisuga, Reina Kimura, Hiroshi Akuzawa, Chie Sekine, Hirotake Yokota, Ryo Hirabayashi, Takeru Okouch, Kodai Sakamoto, Mutsuaki Edama
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引用次数: 0

摘要

背景:屈伸肌(FPM)及其共同肌腱(CT)在投球过程中保护内侧尺侧副韧带免受肘外翻压力的作用至关重要。本研究旨在调查重复投球对 FPM 力量和 CT 硬度的影响:15 名有 5 年以上棒球经验的健康男性(平均年龄:21.8 ± 1.3 岁)进行了一系列 100 次全力快速投球。我们测量了投球任务前后第二、第三和第四指的握力和孤立数字屈伸力量。肌肉力量的下降是通过投球后肌肉力量相对于投球前的变化率来确定的。CT 硬度是通过手持式肌力计装置在静止状态下和在 50%最大自主收缩的握力运动过程中进行测量的。与静止时相比,握持运动时 CT 硬度的增加被计算为 CT 硬度的增强率。通过统计分析,比较了投球导致的握力、数字屈伸力和 CT 硬度的变化。此外,还比较了各种力量变量之间的肌肉力量下降率。相关系数用于评估投球后 CT 硬度增加率与任何肌肉力量减少率之间的关系:结果:投球后握力和孤立数字屈伸力明显下降(P < 0.01)。所有孤立数字肌力的下降率均明显高于握力(P < 0.05)。与投球前和投球后的静止状态相比,CT 硬度随着握力的运动而增加(P < 0.001)。然而,无论握力如何变化,投球都不会导致 CT 硬度发生变化(P > 0.05)。此外,投球后较低的 CT 硬度增强率与较高的第二次数字屈伸强度降低率有一定关系(r = 0.607,P = 0.016),但没有其他关系:本研究发现,投球后握力和数字屈伸力量下降,而 CT 硬度没有变化。然而,从相关性分析的结果来看,投球导致的第二数字屈伸力量下降更为明显的个体在投球后的 CT 硬度增强方面受到了影响。数字屈伸力量代表了屈指浅肌的力量;因此,这项研究表明,前臂FPM,尤其是屈指浅肌的第二数字屈伸力量,是增强CT硬度的一个重要因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Examining the changes in strength and mechanical property of dynamic stabilizers of the medial elbow joint through repetitive pitching.

Background: The flexor-pronator muscles (FPM) and their common tendon (CT) are essential in protecting the medial ulnar collateral ligament against elbow valgus stress during pitching. This study aimed to investigate the effect of repetitive pitching on FPM strength and CT stiffness.

Methods: Fifteen healthy males (mean age: 21.8 ± 1.3-years-old) with over 5 years of baseball experience performed a series of 100 full-effort fastball pitches. We measured grip and isolated digital flexion strength of the second, third, and fourth digits before and after the pitching task. The decline in muscle strength was determined using the rate of change in muscle strength after pitching relative to that before. CT stiffness was measured using a hand-held myotonometer device at rest and during grip motion at 50% maximum voluntary contraction. The increase in CT stiffness during grip motion relative to rest was calculated as the augmentation rate of CT stiffness. Statistical analyses were performed to compare the changes in grip strength, digital flexion strength, and CT stiffness due to pitching. Additionally, the reduction rate of muscle strength was compared among various strength variables. Correlation coefficients were used to evaluate the relationships between the augmentation rate of CT stiffness after pitching and the reduction rate in any muscle strength.

Results: Grip and isolated digital flexion strengths decreased significantly after pitching (P < 0.01). The decline in muscle strength was significantly higher for all isolated digital strengths than that for grip strength (P < 0.05). CT stiffness was augmented with grip motion compared to that at rest pre- and post-pitching (P < 0.001). However, no change in CT stiffness due to pitching was observed, regardless of the grip motion (P > 0.05). Additionally, a lower augmentation rate of CT stiffness after pitching was moderately associated with the greater reduction rate of the second digital flexion strength (r = 0.607, P = 0.016) without other relationships.

Conclusion: This study found reduced grip and digital flexion strength after pitching; with no change in CT stiffness. However, given the consequences of correlation analyses, individuals with a more prominent reduction in second digital flexion strength due to pitching were impaired in CT stiffness augmentation after pitching. Digital flexion strength represents the strength of the flexor digitorum superficial; therefore, this study suggests that forearm FPM, particularly the second digit of the flexor digitorum superficial, is an important factor for enhancing CT stiffness.

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来源期刊
CiteScore
6.50
自引率
23.30%
发文量
604
审稿时长
11.2 weeks
期刊介绍: The official publication for eight leading specialty organizations, this authoritative journal is the only publication to focus exclusively on medical, surgical, and physical techniques for treating injury/disease of the upper extremity, including the shoulder girdle, arm, and elbow. Clinically oriented and peer-reviewed, the Journal provides an international forum for the exchange of information on new techniques, instruments, and materials. Journal of Shoulder and Elbow Surgery features vivid photos, professional illustrations, and explicit diagrams that demonstrate surgical approaches and depict implant devices. Topics covered include fractures, dislocations, diseases and injuries of the rotator cuff, imaging techniques, arthritis, arthroscopy, arthroplasty, and rehabilitation.
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