最大等尺性肩屈曲運動時と投球動作時における肩甲骨位置の関連性
【目的】本研究では,最大等尺性肩屈曲運動(以下,MVIC肩屈曲)と投球動作における肩甲骨位置の関連性を明らかにすることを目的とした。【方法】大学野球選手15名を対象に,3次元動作解析装置を用いて肩甲骨位置を定量評価した。肩関節90°屈曲位でMVIC肩屈曲時の肩甲骨位置の変化量と投球動作時の足部接地(以下,FC)・肩関節最大外旋位(以下,MER)・ボールリリースにおける肩甲骨位置を計測した。MVIC肩屈曲の肩甲骨位置の変化量と投球動作時の肩甲骨位置との関連性を検討するために,ピアソンの相関係数を算出した。【結果】MVIC肩屈曲の肩甲骨内旋角度の変化量は,FC(r=0.55, p=0.033)とM...
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| Published in | スポーツ理学療法学 Vol. 3; no. 1; pp. 6 - 12 |
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| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | Japanese |
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一般社団法人 日本スポーツ理学療法学会
2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2758-4356 |
| DOI | 10.57495/jjspt.3.1_6 |
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| Abstract | 【目的】本研究では,最大等尺性肩屈曲運動(以下,MVIC肩屈曲)と投球動作における肩甲骨位置の関連性を明らかにすることを目的とした。【方法】大学野球選手15名を対象に,3次元動作解析装置を用いて肩甲骨位置を定量評価した。肩関節90°屈曲位でMVIC肩屈曲時の肩甲骨位置の変化量と投球動作時の足部接地(以下,FC)・肩関節最大外旋位(以下,MER)・ボールリリースにおける肩甲骨位置を計測した。MVIC肩屈曲の肩甲骨位置の変化量と投球動作時の肩甲骨位置との関連性を検討するために,ピアソンの相関係数を算出した。【結果】MVIC肩屈曲の肩甲骨内旋角度の変化量は,FC(r=0.55, p=0.033)とMER(r=0.52, p=0.047)の肩甲骨内旋角度と有意な正の相関関係を認めた。【結論】MVIC肩屈曲の肩甲骨内旋の変化量は,投球動作時の肩甲骨内旋角度を推測する評価指標として有用となる可能性がある。 |
|---|---|
| AbstractList | 【目的】本研究では,最大等尺性肩屈曲運動(以下,MVIC肩屈曲)と投球動作における肩甲骨位置の関連性を明らかにすることを目的とした。【方法】大学野球選手15名を対象に,3次元動作解析装置を用いて肩甲骨位置を定量評価した。肩関節90°屈曲位でMVIC肩屈曲時の肩甲骨位置の変化量と投球動作時の足部接地(以下,FC)・肩関節最大外旋位(以下,MER)・ボールリリースにおける肩甲骨位置を計測した。MVIC肩屈曲の肩甲骨位置の変化量と投球動作時の肩甲骨位置との関連性を検討するために,ピアソンの相関係数を算出した。【結果】MVIC肩屈曲の肩甲骨内旋角度の変化量は,FC(r=0.55, p=0.033)とMER(r=0.52, p=0.047)の肩甲骨内旋角度と有意な正の相関関係を認めた。【結論】MVIC肩屈曲の肩甲骨内旋の変化量は,投球動作時の肩甲骨内旋角度を推測する評価指標として有用となる可能性がある。 |
| Author | 才崎, 和哉 飯田, 尚哉 山本, 敬三 片寄, 正樹 戸田, 創 吉田, 昌弘 小出所, 大樹 渡部, 峻 浅野, 柊 野村, 勇輝 山下, 泰功 吉田, 真 |
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| References | 16) Kadaba MP, Ramakrishnan HK, Wootten ME: Measurement of lower extremity kinematics during level walking. J Orthop Res. May 1990; 8(3): 383‒392. 19) Picco BR, Fischer SL, Dickerson CR: Quantifying scapula orientation and its influence on maximal hand force capability and shoulder muscle activity. Clin Biomech (Bristol, Avon). 2010; 25(1): 29‒36. 8) 小山太郎,宮下浩二,松下廉:投球動作における肩最大外旋時の肩甲上腕関節水平伸展角度に影響を与える因子.日本臨床スポーツ医学会誌.2016;24(1):10‒16. 2) Walch G, Boileau P, Noel E, et al.: Impingement of the deep surface of the supraspinatus tendon on the posterosuperior glenoid rim: an arthroscopic study. J Shoulder Elbow Surg. 1992; 1(5): 238‒245. 9) Ueda A, Matsumura A, Shinkuma T, et al.: Scapular dyskinesis type is associated with glenohumeral joint and scapular kinematic alteration during pitching motion in baseball players. J Bodyw Mov Ther. 2021; 28: 332‒340. 12) Wu G, van der Helm FC, Veeger HE, et al.: ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion--Part II: shoulder, elbow, wrist and hand. J Biomech. 2005; 38(5): 981‒992. 14) Michaud B, Jackson M, Arndt A, et al.: Determining in vivo sternoclavicular, acromioclavicular and glenohumeral joint centre locations from skin markers, CT-scans and intracortical pins: A comparison study. Med Eng Phys. 2016; 38(3): 290‒296. 7) 小山太郎,松下廉,宮下浩二:投球時肩最大外旋位における肩甲上腕関節水平伸展角度に影響を与える因子~足部接地時の各関節角度との相関~.東海スポーツ傷害研究会会誌.2015;33:22‒26. 15) van Andel C, van Hutten K, Eversdijk M, et al.: Recording scapular motion using an acromion marker cluster. Gait & posture. 2009; 29(1): 123‒128. 5) Mihata T, McGarry MH, Kinoshita M, et al.: Excessive glenohumeral horizontal abduction as occurs during the late cocking phase of the throwing motion can be critical for internal impingement. Am J Sports Med. 2010; 38(2): 369‒374. 1) Fleisig GS, Andrews JR, Dillman CJ, et al.: Kinetics of baseball pitching with implications about injury mechanisms. Am J Sports Med. 1995; 23(2): 233‒239. 6) Mihata T, Jun BJ, Bui CN, et al.: Effect of scapular orientation on shoulder internal impingement in a cadaveric model of the cocking phase of throwing. J Bone Joint Surg Am. 2012; 94(17): 1576‒1583. 10) Nomura Y, Toda H, Katayose M, et al.: Relationship between scapular control during isometric shoulder flexion and scapular motion during baseball pitching: a cross-sectional study. BMC Sports Sci Med Rehabil. 2022; 14(1): 1‒11. 18) Tate AR, Mcclure P, Kareha S, et al.: Effect of the scapula reposition test on shoulder impingement symptoms and elevation strength in overhead athletes. J Orthop Sports Phys Ther. 2008; 38(1): 4‒11. 17) Kibler WB, Sciascia A, Dome D: Evaluation of apparent and absolute supraspinatus strength in patients with shoulder injury using the scapular retraction test. Am J Sports Med. 2006; 34(10): 1643‒1647. 20) Miyasaka J, Arai R, Ito T, et al.: Isometric muscle activation of the serratus anterior and trapezius muscles varies by arm position: a pilot study with healthy volunteers with implications for rehabilitation. J Shoulder Elbow Surg. 2017; 26: 1166‒1174. 13) Rab G, Petuskey K, Bagley A: A method for determination of upper extremity kinematics. Gait & posture. 2002; 15(2): 113‒ 119. 11) Seitz AL, McClelland RI, Jones WJ, et al.: A Comparison of Change in 3d Scapular Kinematics with Maximal Contractions and Force Production with Scapular Muscle Tests between Asymptomatic Overhead Athletes with and without Scapular Dyskinesis. Int J Sports Phys Ther. 2015; 10(3): 309‒318. 3) Davidson PA, Elattrache NS, Jobe CM, et al.: Rotator cuff and posterior-superior glenoid labrum injury associated with increased glenohumeral motion: a new site of impingement. J Shoulder Elbow Surg. 1995; 4(5): 384‒390. 4) Burkhart SS, Morgan CD, Kibler WB: The disabled throwing shoulder: spectrum of pathology Part III: The SICK scapula, scapular dyskinesis, the kinetic chain, and rehabilitation. Arthroscopy. 2003; 19(6): 641‒661. |
| References_xml | – reference: 8) 小山太郎,宮下浩二,松下廉:投球動作における肩最大外旋時の肩甲上腕関節水平伸展角度に影響を与える因子.日本臨床スポーツ医学会誌.2016;24(1):10‒16. – reference: 9) Ueda A, Matsumura A, Shinkuma T, et al.: Scapular dyskinesis type is associated with glenohumeral joint and scapular kinematic alteration during pitching motion in baseball players. J Bodyw Mov Ther. 2021; 28: 332‒340. – reference: 12) Wu G, van der Helm FC, Veeger HE, et al.: ISB recommendation on definitions of joint coordinate systems of various joints for the reporting of human joint motion--Part II: shoulder, elbow, wrist and hand. J Biomech. 2005; 38(5): 981‒992. – reference: 13) Rab G, Petuskey K, Bagley A: A method for determination of upper extremity kinematics. Gait & posture. 2002; 15(2): 113‒ 119. – reference: 19) Picco BR, Fischer SL, Dickerson CR: Quantifying scapula orientation and its influence on maximal hand force capability and shoulder muscle activity. Clin Biomech (Bristol, Avon). 2010; 25(1): 29‒36. – reference: 20) Miyasaka J, Arai R, Ito T, et al.: Isometric muscle activation of the serratus anterior and trapezius muscles varies by arm position: a pilot study with healthy volunteers with implications for rehabilitation. J Shoulder Elbow Surg. 2017; 26: 1166‒1174. – reference: 4) Burkhart SS, Morgan CD, Kibler WB: The disabled throwing shoulder: spectrum of pathology Part III: The SICK scapula, scapular dyskinesis, the kinetic chain, and rehabilitation. Arthroscopy. 2003; 19(6): 641‒661. – reference: 15) van Andel C, van Hutten K, Eversdijk M, et al.: Recording scapular motion using an acromion marker cluster. Gait & posture. 2009; 29(1): 123‒128. – reference: 2) Walch G, Boileau P, Noel E, et al.: Impingement of the deep surface of the supraspinatus tendon on the posterosuperior glenoid rim: an arthroscopic study. J Shoulder Elbow Surg. 1992; 1(5): 238‒245. – reference: 1) Fleisig GS, Andrews JR, Dillman CJ, et al.: Kinetics of baseball pitching with implications about injury mechanisms. Am J Sports Med. 1995; 23(2): 233‒239. – reference: 7) 小山太郎,松下廉,宮下浩二:投球時肩最大外旋位における肩甲上腕関節水平伸展角度に影響を与える因子~足部接地時の各関節角度との相関~.東海スポーツ傷害研究会会誌.2015;33:22‒26. – reference: 6) Mihata T, Jun BJ, Bui CN, et al.: Effect of scapular orientation on shoulder internal impingement in a cadaveric model of the cocking phase of throwing. J Bone Joint Surg Am. 2012; 94(17): 1576‒1583. – reference: 5) Mihata T, McGarry MH, Kinoshita M, et al.: Excessive glenohumeral horizontal abduction as occurs during the late cocking phase of the throwing motion can be critical for internal impingement. Am J Sports Med. 2010; 38(2): 369‒374. – reference: 10) Nomura Y, Toda H, Katayose M, et al.: Relationship between scapular control during isometric shoulder flexion and scapular motion during baseball pitching: a cross-sectional study. BMC Sports Sci Med Rehabil. 2022; 14(1): 1‒11. – reference: 16) Kadaba MP, Ramakrishnan HK, Wootten ME: Measurement of lower extremity kinematics during level walking. J Orthop Res. May 1990; 8(3): 383‒392. – reference: 18) Tate AR, Mcclure P, Kareha S, et al.: Effect of the scapula reposition test on shoulder impingement symptoms and elevation strength in overhead athletes. J Orthop Sports Phys Ther. 2008; 38(1): 4‒11. – reference: 17) Kibler WB, Sciascia A, Dome D: Evaluation of apparent and absolute supraspinatus strength in patients with shoulder injury using the scapular retraction test. Am J Sports Med. 2006; 34(10): 1643‒1647. – reference: 11) Seitz AL, McClelland RI, Jones WJ, et al.: A Comparison of Change in 3d Scapular Kinematics with Maximal Contractions and Force Production with Scapular Muscle Tests between Asymptomatic Overhead Athletes with and without Scapular Dyskinesis. Int J Sports Phys Ther. 2015; 10(3): 309‒318. – reference: 14) Michaud B, Jackson M, Arndt A, et al.: Determining in vivo sternoclavicular, acromioclavicular and glenohumeral joint centre locations from skin markers, CT-scans and intracortical pins: A comparison study. Med Eng Phys. 2016; 38(3): 290‒296. – reference: 3) Davidson PA, Elattrache NS, Jobe CM, et al.: Rotator cuff and posterior-superior glenoid labrum injury associated with increased glenohumeral motion: a new site of impingement. J Shoulder Elbow Surg. 1995; 4(5): 384‒390. |
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| Snippet | 【目的】本研究では,最大等尺性肩屈曲運動(以下,MVIC肩屈曲)と投球動作における肩甲骨位置の関連性を明らかにすることを目的とした。【方法】大学野球選手15名を対象に,3... |
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| SubjectTerms | 投球動作 投球障害肩 肩甲骨運動 肩関節 野球 |
| Title | 最大等尺性肩屈曲運動時と投球動作時における肩甲骨位置の関連性 |
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