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研究生: 林子鑑
Tzu Chien Lin
論文名稱: 不同蹲舉動作之膝關節力矩比較
Comparision of knee joint moments for different squat postures
指導教授: 張家豪
Chang, Jia-Hao
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2009
畢業學年度: 97
語文別: 中文
論文頁數: 90
中文關鍵詞: 膝關節受力蹲舉肌力訓練
英文關鍵詞: Knee joint force, barbell squats, training
論文種類: 學術論文
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  • 摘 要
    目的:探討在不同蹲舉姿勢與不同負重下膝關節力矩之差異。方法:分別以測力板、Vicon Motion Capture systems動作擷取系統擷取12位大學男生(平均年齡:20.91歲±1.32,平均體重70.83kg±5.42,平均身高:177.85cm±3.92)1/2及1/3蹲舉過程中,動力學及運動學參數。實驗以重複量數二因子變異數進行分析;並以LSD進行事後比較,顯著水準定在α = .05。結果:最大屈曲伸展力矩,1/2蹲舉為0.98 ± 0.15~2.19 ± 0.27(Nm/kg),1/3為蹲舉0.938± 0.19~2.23 ± 0.295(Nm/kg),蹲舉方式雖未達顯著差異,但負重較重有明顯較大的曲屈伸展力矩(p<.05)。 1/2蹲舉的最大內收外展力矩(0.36±0.25~0.88±0.37Nm/kg)明顯大於1/3蹲舉(0.35±0.23~0.76±0.38Nm/kg, p<.05),負重較重有明顯較大的內收外展力矩(p<.05)。內旋外旋最大力矩1/2蹲舉(0.12±0.03~0.27±0.99Nm/kg)明顯大於1/3蹲舉(0.11±0.01~0.21±0.05Nm/kg p<.05),負重較重有明顯較大的內旋外旋力矩(p<.05)。結論與建議:本研究兩種蹲舉姿勢,對於一般健康之年輕族群,是可以接受的訓練方式;在內收外展與內外旋力矩方面,1/3方式會有較小的負荷,較適合膝關節傷害復建與肌肉適能較差之族群。

    Abstract

    Purpose: to investigate the variation of different postures and loadings of barbell squats on knee joint force. Methods: The KISTER force plate and the VICON Motion Capture Systems were used to acquire 12 male college students’ (age 20.91±1.32 yrs, weight 70.83±5.42 kg, height 177.85±3.92 cm) kinetic and kinematic data during 1/2 and 1/3 squats. The selected variables were tested by two-way repeated ANOVA (α = .05) and post hoc comparisons by LSD. Results: the maximal moment of flexion/extension were 0.98 ± 0.15~2.19 ± 0.27 (Nm/kg) in 1/2 squats, and 0.938± 0.19~2.23 ± 0.295 (Nm/kg) in 1/3 squats. There were no significant difference between two types of barbell squats; nevertheless, flexion/extension moments of the knee joint were significantly greater for heavier loading than lighter loading. Adduction/ abduction moments of the knee joint were significantly greater for 1/2 squats (0.36±0.25~0.88±0.37 Nm/kg) than 1/3 squats (0.35±0.23~0.76 ±0.38 Nm/kg, p<.05), and were significantly greater for heavier loading. Internal/external rotation moments of the knee joint were significantly greater for 1/2 squats (0.12±0.03~0.27±0.99 Nm/kg) than 1/3 squats (0.11±0.01~0.21±0.05 Nm/kg, p<.05), and were significant greater for heavier loading. Conclusion: This research indicated that the two postures of loading are suitable for health young people; the 1/3 squat is more fit to knee injury and poor muscular fitness people, due to lower moments of knee adduction/abduction and knee internal/external rotation.

    中文摘要 …………………………………………………………………I 英文摘要…………………………………………………………………II 謝 誌…………………………………………………………………III 目 錄 ………………………………………………………………IV 表 目錄 ………………………………………………………………VI 圖 目錄 ………………………………………………………………VII 第壹章 緒論 …………………………………………………………1  第一節 問題背景 …………………………………………………1  第二節 研究問題 …………………………………………………6  第三節 研究目的 …………………………………………………6  第四節 研究假定與限制 …………………………………………6  第五節 操作性定義 ……………………………………………7  第六節 研究的重要性 ……………………………………………8 第貮章 文獻探討 …………………………………………………9 第一節 膝關節介紹 ……………………………………………9 第二節 肌力訓練對膝關節傷害的益處 …………………………14 第三節 不同關節角度對運動能力之影響 ………………………20 第四節 結論 ………………………………………………………22 第參章 研究方法與步驟 …………………………………………23 第一節 研究對象 …………………………………………………23 第二節 實驗儀器 …………………………………………………24 第三節 實驗步驟 …………………………………………………25 第四節 資料處理與統計分析 ……………………………………31 第四章 結果與討論 …………………………………………………35 第一節 質心位移 …………………………………………………35 第二節 膝關節下蹲最大角 ………………………………………38 第三節 膝關節屈曲、伸展最大角度百分比時間 ………………41 第四節 膝關節中心投影 …………………………………………43 第五節 膝關節屈曲伸展最大力矩時膝關節角度 ………………47 第六節 膝關節力矩 ………………………………………………49 第七節 討 論 ………………………………………………60 第五章 結論與建議 ………………………………………………67    引用文獻 ……………………………………………………………69 中文部分 ……………………………………………………………69 英文部分 ……………………………………………………………70 表目錄 表3-1 實驗受試者基本資料 ………………………………………… 23 表3-2 反光球黏貼位置 ……………………………………………… 26 表4-1質心位移變異數分析摘要表 ………………………………… 37 表4-2質心位移 (%BH) ………………………………………………37 表4-3 膝關節下蹲最大角度變異數分析摘要 ………………………39 表4-4 膝關節下蹲最大角度 ………………………………………… 40 表4-5 膝關節屈曲伸展最大角度百分比時間變異數分析摘要 ……42 表4-6膝關節屈曲伸展最大角度的發生時間 ……………………… 42 表4- 7膝關節屈曲伸展最大力矩發生時其膝關節中心的投影 線段比值變異數摘要 …………………………………………………43 表4-8 屈曲伸展最大力矩發生其膝關節中心的投影線段比值 …… 44 表4- 9膝關節屈曲伸展最大角度發生時其膝關節中心的投影線段比值 ………………………………………………………………………45 表4-10膝關節屈曲伸展最大角度發生時其膝關節中心的投影線 段比值 …………………………………………………………………46 表4-7屈曲伸展最大力矩發生膝關節角度變異數分析摘要表 ……47 表4-8膝關節屈曲伸展最大力矩發生時膝關節角度 ………………48 表4-9 膝關節屈曲伸展最大力矩變異數分析摘要表 ………………51 表4-10膝關節屈曲伸展最大力矩 ……………………………………52 表4- 11膝關節外展內收最大力矩變異數分析摘要表………………55 表4-12膝關節外展內收最大力矩 ……………………………………56 表4-13 膝關節內旋外旋最大力矩變異數分析摘要表………………59 表4-14膝關節內旋外旋最大力矩 ……………………………………59 圖目錄 圖2-1 半月板位置 …………………………………………………9 圖2-2 膝關節韌帶位置……………………………………………….10 圖2-3 膝部運動相關肌肉 ……………………………………………11 圖3-1 正面反光球貼法 ………………………………………………27 圖3-2 空槓練習 ……………………………………………………28 圖 3-3 膝關節角度定義 ……………………………………………32 圖4-1 十二位受試者以1/3蹲舉的質心垂直方向位移平均……….36 圖4-2 十二位受試者以1/2蹲舉的質心垂直方向位移平均……….36 圖4-3 十二位受試者以1/3蹲舉方式時膝關節下蹲最大角度 ……38 圖4-4十二位受試者以1/2蹲舉方式時膝關節下蹲最大角度………39 圖4-5 1/3蹲舉膝關節屈曲伸展最大力矩……………………………50 圖4-6 1/2蹲舉膝關節屈曲伸展最大力矩……………………………51 圖 4-7十二位受試者進行1/3蹲舉時膝關節外展內收最大力矩 …54 圖4-8 十二位受試者1/2蹲舉時膝關節外展內收最大力矩 …55 圖4-9十二位受試者1/3蹲舉時膝關節內旋外旋最大力矩 ………57 圖4-10十二位受試者1/2蹲舉時膝關節內旋外旋最大力………… 58

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