Center of Health and Sport Sciences, Santa Catarina State University, Florianópolis, SC, Brazil.
Gait Posture. 2012 Feb;35(2):225-30. doi: 10.1016/j.gaitpost.2011.09.011. Epub 2011 Oct 12.
The aim of this study was to compare the first and second peaks of the vertical ground reaction force (VGRF) and kinematics at initial contact (IC) and final stance (FS) during walking in one of two directions (forward×backward) and two environments (on land×underwater). Twenty-two adults (24.6±2.6 years) walking forward (FW) and backward (BW) on a 7.5m walkway with a central force plate. Underwater immersion was at the height of the Xiphoid process. Ten trials were performed for each condition giving a total of 40 trials where the VGRF and kinematic data were recorded. Two-way repeated measures analysis of covariance was used with a combination of environment and direction of walking: FW on land, FW underwater, BW on land and BW underwater (entered as between-subjects factor) and repeated measures of VGRF peaks (first and second) or angles (at IC and FS). Walking velocity was included as a covariate. Both VGRF peaks were reduced when participants walked underwater compared to on land (p<.001). For BW, in both environments, the second peak was lower than the first (p<.001; for both). During BW at IC the ankle is more dorsiflexed and the knee is more flexed, both on land and underwater. At FS, there was no difference between the ankle angle for FW and BW in both environments. At IC, in FW and BW the knee and hip are more flexed underwater. BW underwater involves a lower VGRF and more knee and hip flexion than BW on land.
本研究旨在比较在两种方向(向前×向后)和两种环境(陆地×水下)下行走时,初始接触(IC)和最终支撑(FS)时垂直地面反作用力(VGRF)和运动学的第一和第二峰值。22 名成年人(24.6±2.6 岁)在带有中央力板的 7.5m 步道上向前(FW)和向后(BW)行走。水下浸没在剑突高度。每种条件下进行 10 次试验,总共进行 40 次试验,记录 VGRF 和运动学数据。使用环境和行走方向的组合(陆地的 FW、水下的 FW、陆地的 BW 和水下的 BW)进行双向重复测量协方差分析,并对 VGRF 峰值(第一和第二)或角度(在 IC 和 FS)进行重复测量。行走速度作为协变量。与在陆地上相比,参与者在水下行走时,两个 VGRF 峰值均降低(p<.001)。对于 BW,在两种环境下,第二峰值均低于第一峰值(p<.001;对于两者)。在 BW 的 IC 期间,踝关节背屈度更大,膝关节弯曲度更大,无论是在陆地还是水下。在 FS 中,两种环境下,FW 和 BW 的踝关节角度没有差异。在 IC 期间,FW 和 BW 的膝关节和髋关节在水下更弯曲。与陆地 BW 相比,水下 BW 涉及的 VGRF 更低,膝关节和髋关节的弯曲度更大。
