歩行,階段昇降,ステップ台昇降における関節モーメント(1部 ヒトのバイオメカニクス)
スポンサーリンク
概要
- 論文の詳細を見る
Kinematic and kinetic measurement have been performed in rehabilitation and orthopaedic field. However, the most important feasibility of engineering in those fields may be to provid any method by which invisible physical conditions related with disabilities or diseases can be revealed. From the clinical point of view, the conditions can be magnitude of forces exerted on the joints and the muscles, stress value of bones and so on. A mathematical and mechanical model must be constructed to calculatethose values because they cannot be measured directly. And these days, there are several reports about such models. We also made a Neutonian mechanical model in which a human body was modified into five links and each joint moment and joint force was calculated from it. Different from the existing human body, muscle contraction necessary to provide powers was assumed to work so as only to output the moment in the model. A part of the model equations is as follows (see text about definitions); about leg force equilibrium [numerical formula](horizontal)[numerical formula](vertical) and about moment [numerical formula] We analysed level walking('W'), ascending('AS') and descending('DS') stairs (16cm height) and going-up('GU') and -down('GD') platform (42cm height) on a 33-year-old healthy male. Several parameters such as location of segments' mass centers and weights were derived from Dempster's method. Acceleration of the mass centers and angular acceleration of joints were calculated from Selspot data. On the other hand, floor-reaction-force ('FRF') and so-called zero moment point were measured by using handmade instrumented shoes in which commercially available gym shoes with eight miniature load cells in their soles were used. And to get reliable results, each waveform of 10 to 20 movement cycles was normalized in its time scale and averaged. After that procedure, the normalized data were input into the mathematical model. Results about the 'FRF': patterns of 'W' and 'AS' and 'DS' were similar and had two peaks. And maximum peak values were 120, 123 and 142 (% of weight), respectively. Maximum values of 'GU' and 'GD' were 112 and 138 (% of weight) each. About the joint force: patterns of joint forces in each movement were almost identical with each 'FRF' pattern and their maximum values decreased compared with the 'FRF' joint by joint. This may have occured because muscle forces were assumed to play no role on the joint forces. About the moment: different from the force patterns, moment patterns were unique in each movement and each joint. For example, peak value of knee moment in 'W' were +100 and 0(Nm), those in 'AS' and 'DS' were 40 and -10(Nm) and 50 and -25(Nm).
- バイオメカニズム学会の論文
- 1982-08-30
著者
-
田中 繁
埼玉県リハ・センター福祉工学研究室
-
飯田 勝
埼玉県障害者リハビリテーションセンター
-
恩地 圭典
埼玉県障害者リハセンター
-
飯田 勝
埼玉県リハビリテーションセンター
-
恩地 圭典
埼玉県リハビリテーションセンター
-
蛭川 英男
横河電機製作所
-
蝦名 昭彦
諏訪精工舎
関連論文
- 上肢動作の3次元分析 : 分析システムの開発とリーチ動作の分析(2部 上肢と解析)
- 広背筋の筋動作学的研究
- 134.歩行時の下肢関節角角加速度(主題II)
- 83. ステップ昇降における膝関節筋活動(歩行)(第18回日本リハビリテーション医学会総会)
- 小型EMGプリアンプの製作とそのアーチファクト抑制効果
- バイオメカニズム学会編集委員会 討論会(「バイオメカニズムの過去・現在・未来」)
- 158. 歩行時における体幹の運動分析 (第1報) : 三次元動作解析装置(VICON)による分析
- 16. 左方麻痺で一側性無視がある患者の注視点軌跡の特徴(脳卒中)(第18回日本リハビリテーション医学会総会)
- 9.フォースプレートによる義足交換時の歩行分析 : 左右の対称性からの検討(運動学・歩行分析・その他)
- 11.フォースプレートによる義足交換時の歩行分析(第22回日本リハビリテーション医学会総会)(歩行分析)
- プラスチック短下肢装具の試作 (第3回関東甲信越ブロック理学療法学会)
- 11.義足交換前後の床反力波形の変化(切断, 義肢, 装具)(第21回日本リハビリテーション医学会総会)
- 32. 新しい機能を持つ歩行分析装置(歩行分析)
- 歩行,階段昇降,ステップ台昇降における関節モーメント(1部 ヒトのバイオメカニクス)
- 138.靴型床反力測定装置による床反力の測定(主題II)
- 上肢動作の三次元定量解析--正常肘と拘縮肘を中心として
- 特集「人工臓器」によせて(「人工臓器」)
- 第3回バイオトライボロジ・シンポジウム
- 人工関節研究会
- タイトル無し