M. B. Gomes, L. S. Andrade, G. N. Nunes, M. K. Weymar, G. Z. Schaun, C. Alberton
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引用次数: 0
摘要
对于超重儿童来说,水上环境是一种充分而安全的锻炼方式。然而,在这些演习中,垂直地面反作用力(Fz)的大小在这一人群中是未知的。因此,我们的研究旨在比较超重或肥胖儿童在水中和陆地环境下进行固定式跑步运动时的Fz。这项研究的特点是交叉研究。七名儿童,其中两名超重,五名肥胖(4名男孩和3名女孩;9.7±0.8岁),进行了两次实验,一次在陆地上,另一次在水生环境中。在这两种情况下,每个参与者以随机顺序以三种不同的节奏(60、80和100 b min−1)重复15次固定跑步练习。在剑突深度,它们的表观重量平均减少了72.1±10.4%。水生环境中的峰值Fz、脉冲和加载速率低于陆地(p<0.001)。80 b min−1时的峰值Fz也低于100 b min−(p=0.005),100 b min-1时的加载速率高于水生环境中80 b min-1(p=0.003)和60 b min−,而在两种环境中,随着节奏的增加,冲动显著减少(p<0.001)。可以得出的结论是,水环境降低了在固定跑步期间研究的所有Fz结果,并且运动强度似乎影响了水环境中的所有这些结果。
The Role of Water-Based Exercise on Vertical Ground Reaction Forces in Overweight Children: A Pilot Study
The aquatic environment represents an adequate and safe alternative for children with overweight to exercise. However, the magnitude of the vertical ground reaction force (Fz) during these exercises is unknown in this population. Therefore, our study aimed to compare the Fz during the stationary running exercise between the aquatic and land environments in children with overweight or obesity. The study is characterized as a cross-over study. Seven children, two with overweight and five with obesity (4 boys and 3 girls; 9.7 ± 0.8 years), performed two experimental sessions, one on land and another in the aquatic environment. In both conditions, each participant performed 15 repetitions of the stationary running exercise at three different cadences (60, 80, and 100 b min−1) in a randomized order. Their apparent weight was reduced by 72.1 ± 10.4% on average at the xiphoid process depth. The peak Fz, impulse, and loading rate were lower in the aquatic environment than on land (p < 0.001). Peak Fz was also lower at 80 b min−1 compared to 100 b min−1 (p = 0.005) and loading rate was higher at 100 b min−1 compared to 80 b min−1 (p = 0.003) and 60 b min−1 (p < 0.001) in the aquatic environment, whereas impulse was significantly reduced (p < 0.001) with the increasing cadence in both environments. It can be concluded that the aquatic environment reduces all the Fz outcomes investigated during stationary running and that exercise intensity seems to influence all these outcomes in the aquatic environment.
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