女性前交叉韧带重建术后的膝关节运动学;视觉对切削任务中表现的影响。
Knee kinematics following acl reconstruction in females; the effect of vision on performance during a cutting task.
作者信息
Bjornaraa Jaynie, Di Fabio Richard P
出版信息
Int J Sports Phys Ther. 2011 Dec;6(4):271-84.
PURPOSE/BACKGROUND: Specific movement patterns have been identified as influential in ACL injury; however several key kinematic variables that might be predictive of future performance have not been fully investigated. The purpose of this research was to: 1) determine if subjects with ACL reconstruction display different displacement, velocity, and time to peak ground reaction force (GRF) during cutting activities than healthy subjects, 2) observe if subjects with visual disruption display differences in these variables, and 3) determine if visual disruption alters these variables in subjects with ACL reconstruction relative to healthy subjects.
METHODS
Seventeen healthy female subjects and 17 female subjects with unilateral ACL reconstruction (ACLR) performed 40 trials of a cutting movement during which knee position was measured via a 3D electromagnetic system. Visual conditions were randomized to disrupt vision for 1 second as the subject began the cutting movement, or allow full vision for movement duration. Independent variables were lead/push off leg (ACLR limb or healthy non-dominant limb) and vision (disrupted or full). 2-way ANOVAs were utilized to determine differences between knee kinematics using dependent variables of displacement (m), absolute velocity (m/sec), and time to reach peak GRF (% of cut).
RESULTS
Knee displacement was significantly less for ACLR (.76±.11; .75±.16) than non-dominant (.85±.08; .87±.12). Knee velocity was significantly slower for ACLR (.81±.14; .84±.16) than non-dominant (.92±.11; .97±.14). A significant interaction was noted for displacement and average velocity (p<.05). Time to reach peak GRF was significantly longer for ACLR (79.41±2.28) than non-dominant (76.65±4.41).
CONCLUSIONS
Subjects with ACLR displayed less knee displacement, slower velocity, and an increased time to reach peak GRF relative to healthy subjects' non-dominant knee. Visual disruption appeared to have some effect on movement, as noted by interaction effects. These movement adjustments may be indicative of an altered motor program that allows for successful and safe task completion while reducing the forces and load on the knee.
LEVEL OF EVIDENCE
Level 2.
目的/背景:特定的运动模式已被确定为对前交叉韧带(ACL)损伤有影响;然而,一些可能预测未来运动表现的关键运动学变量尚未得到充分研究。本研究的目的是:1)确定ACL重建的受试者在切入动作中与健康受试者相比,在位移、速度和达到峰值地面反作用力(GRF)的时间上是否存在差异;2)观察视觉干扰的受试者在这些变量上是否存在差异;3)确定视觉干扰相对于健康受试者是否会改变ACL重建受试者的这些变量。
方法
17名健康女性受试者和17名单侧ACL重建(ACLR)的女性受试者进行了40次切入动作试验,在此期间通过三维电磁系统测量膝关节位置。视觉条件被随机设置为在受试者开始切入动作时干扰视觉1秒,或在整个动作过程中允许完全视觉。自变量为引导/蹬地腿(ACLR肢体或健康的非优势肢体)和视觉(干扰或正常)。使用位移(米)、绝对速度(米/秒)和达到峰值GRF的时间(切入的百分比)作为因变量,采用双向方差分析来确定膝关节运动学之间的差异。
结果
ACLR受试者的膝关节位移(0.76±0.11;0.75±0.16)明显小于非优势肢体(0.85±0.08;0.87±0.12)。ACLR受试者的膝关节速度(0.81±0.14;0.84±0.16)明显慢于非优势肢体(0.92±0.11;0.97±0.14)。在位移和平均速度方面观察到显著的交互作用(p<0.05)。ACLR受试者达到峰值GRF的时间(79.41±2.28)明显长于非优势肢体(76.65±4.41)。
结论
相对于健康受试者的非优势膝关节,ACLR受试者的膝关节位移较小、速度较慢,达到峰值GRF的时间增加。如交互作用所示,视觉干扰似乎对运动有一定影响。这些运动调整可能表明运动程序发生了改变,从而在减少膝关节受力和负荷的同时,实现成功且安全的任务完成。
证据水平
2级。
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