性别、关节角度和腓肠肌对踝关节复合体被动刚度的影响。
The Effects of Sex, Joint Angle, and the Gastrocnemius Muscle on Passive Ankle Joint Complex Stiffness.
作者信息
Riemann Bryan L., DeMont Richard G., Ryu Keeho, Lephart Scott M.
机构信息
Neuromuscular Research Laboratory, University of Pittsburgh, Pittsburgh, PA.
出版信息
J Athl Train. 2001 Dec;36(4):369-375.
OBJECTIVE
To assess the effects of sex, joint angle, and the gastrocnemius muscle on passive ankle joint complex stiffness (JCS). DESIGN AND SETTING: A repeated-measures design was employed using sex as a between-subjects factor and joint angle and inclusion of the gastrocnemius muscle as within-subject factors. All testing was conducted in a neuromuscular research laboratory. SUBJECTS: Twelve female and 12 male healthy, physically active subjects between the ages of 18 and 30 years volunteered for participation in this study. The dominant leg was used for testing. No subjects had a history of lower extremity musculoskeletal injury or circulatory or neurologic disorders. MEASUREMENTS: We determined passive ankle JCS by measuring resistance to passive dorsiflexion (5 degrees.s(-1)) from 23 degrees plantar flexion (PF) to 13 degrees dorsiflexion (DF). Angular position and torque data were collected from a dynamometer under 2 conditions designed to include or reduce the contribution of the gastrocnemius muscle. Separate fourth-order polynomial equations relating angular position and torque were constructed for each trial. Stiffness values (Nm.degree(-1)) were calculated at 10 degrees PF, neutral (NE), and 10 degrees DF using the slope of the line at each respective position. RESULTS: Significant condition-by-position and sex-by-position interactions and significant main effects for sex, position, and condition were revealed by a 3-way (sex-by-position, condition-by-position) analysis of variance. Post hoc analyses of the condition-by-position interaction revealed significantly higher stiffness values under the knee-straight condition compared with the knee-bent condition at both ankle NE and 10 degrees DF. Within each condition, stiffness values at each position were significantly higher as the ankle moved into DF. Post hoc analysis of the sex-by-position interaction revealed significantly higher stiffness values at 10 degrees DF in the male subjects. Post hoc analysis of the position main effect revealed that as the ankle moved into dorsiflexion, the stiffness at each position became significantly higher than at the previous position. CONCLUSIONS: The gastrocnemius contributes significantly to passive ankle JCS, thereby providing a scientific basis for clinicians incorporating stretching regimens into rehabilitation programs. Further research is warranted considering the cause and application of the sex-by-position interaction.
目的
评估性别、关节角度和腓肠肌对被动踝关节复合体僵硬度(JCS)的影响。
设计与设置
采用重复测量设计,将性别作为组间因素,关节角度和是否包含腓肠肌作为组内因素。所有测试均在神经肌肉研究实验室进行。
受试者
12名年龄在18至30岁之间的健康、有体育活动的女性和12名男性志愿者参与本研究。使用优势腿进行测试。所有受试者均无下肢肌肉骨骼损伤史或循环或神经系统疾病史。
测量
通过测量从23°跖屈(PF)到13°背屈(DF)的被动背屈阻力(5°·s⁻¹)来确定被动踝关节JCS。在两种旨在包含或减少腓肠肌贡献的条件下,从测力计收集角度位置和扭矩数据。为每个试验构建了将角度位置和扭矩相关联的单独的四阶多项式方程。使用每个相应位置处直线的斜率计算在10°PF、中立位(NE)和10°DF时的僵硬度值(Nm·°⁻¹)。
结果
通过三因素(性别×位置、条件×位置)方差分析揭示了显著的条件×位置和性别×位置交互作用以及性别、位置和条件的显著主效应。对条件×位置交互作用的事后分析显示,在踝关节NE和10°DF处,与屈膝条件相比,直膝条件下的僵硬度值显著更高。在每种条件下,随着踝关节向背屈移动,每个位置的僵硬度值均显著更高。对性别×位置交互作用的事后分析显示,男性受试者在10°DF时的僵硬度值显著更高。对位置主效应的事后分析显示,随着踝关节向背屈移动,每个位置的僵硬度均显著高于前一位置。
结论
腓肠肌对被动踝关节JCS有显著贡献,从而为临床医生将拉伸方案纳入康复计划提供了科学依据。考虑到性别×位置交互作用的原因和应用,有必要进行进一步研究。
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