This study was to measure the muscle activity and muscle fatigue of the trunk and lower extremity muscles during running on the Non-motorized Treadmill, Motorized Treadmill and Overground. The results are summarized as follows : First, muscle activity of Erector spinae was higher in the order of Non...
This study was to measure the muscle activity and muscle fatigue of the trunk and lower extremity muscles during running on the Non-motorized Treadmill, Motorized Treadmill and Overground. The results are summarized as follows : First, muscle activity of Erector spinae was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, but there was no significant difference. Also, there was no significant difference in muscle fatigue. Second, the muscle activity of the Rectus abdominis muscle was higher in the order of Overground, Non-motorized Treadmill, and Motorized Treadmill. There was a significant difference in muscle fatigue between the exercise condition (p <.05) and the interaction effect (p <.05), but fatigue was induced in the Motorized Treadmill, but there was no significant difference. Third, muscle activity of Gluteus maximus was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, and there was a significant difference at the time of exercise (p <.05). Fatigue did not show any significant difference in all conditions. Fourth, muscle activity of the Rectus femoris was higher in the order of Motorized Treadmill, Overground and Non-motorized Treadmill, and there was a significant difference at the time of exercise (p <.05). The muscle fatigue showed a significant difference at the time of exercise (p <.05). Fifth, muscle activity of Biceps femoris was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, and there was a significant difference at the time of exercise (p <.01). There was a significant difference at the time of exercise in muscle fatigue (p <.05), and fatigue was not induced in all exercise conditions. Sixth, muscle activity of the Tibialis anterior was higher in the order of Motorized Treadmill, Overground and Non-motorized Treadmill. There was a significant difference at the time of exercise (p <.01), and exercise condition (p <.05). Fatigue did not show any significant difference in all conditions. Seventh, muscle activity of the Soleus was higher in the order of Non-motorized Treadmill, Motorized Treadmill and Overground. There was a significant difference at the time of exercise (p <.01), and exercise condition (p <.001). There was a significant difference at the time of exercise in muscle fatigue (p <.05). This study suggests that the characteristics of each exercise condition are understood by comparing the muscle activity and muscle fatigue during Non-motorized Treadmill, Motorized Treadmill and Overground, In future studies, more data will be collected by using various age groups and various speeds. Based on this, we will be able to present effective exercise.
This study was to measure the muscle activity and muscle fatigue of the trunk and lower extremity muscles during running on the Non-motorized Treadmill, Motorized Treadmill and Overground. The results are summarized as follows : First, muscle activity of Erector spinae was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, but there was no significant difference. Also, there was no significant difference in muscle fatigue. Second, the muscle activity of the Rectus abdominis muscle was higher in the order of Overground, Non-motorized Treadmill, and Motorized Treadmill. There was a significant difference in muscle fatigue between the exercise condition (p <.05) and the interaction effect (p <.05), but fatigue was induced in the Motorized Treadmill, but there was no significant difference. Third, muscle activity of Gluteus maximus was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, and there was a significant difference at the time of exercise (p <.05). Fatigue did not show any significant difference in all conditions. Fourth, muscle activity of the Rectus femoris was higher in the order of Motorized Treadmill, Overground and Non-motorized Treadmill, and there was a significant difference at the time of exercise (p <.05). The muscle fatigue showed a significant difference at the time of exercise (p <.05). Fifth, muscle activity of Biceps femoris was higher in the order of Non-motorized Treadmill, Overground and Motorized Treadmill, and there was a significant difference at the time of exercise (p <.01). There was a significant difference at the time of exercise in muscle fatigue (p <.05), and fatigue was not induced in all exercise conditions. Sixth, muscle activity of the Tibialis anterior was higher in the order of Motorized Treadmill, Overground and Non-motorized Treadmill. There was a significant difference at the time of exercise (p <.01), and exercise condition (p <.05). Fatigue did not show any significant difference in all conditions. Seventh, muscle activity of the Soleus was higher in the order of Non-motorized Treadmill, Motorized Treadmill and Overground. There was a significant difference at the time of exercise (p <.01), and exercise condition (p <.001). There was a significant difference at the time of exercise in muscle fatigue (p <.05). This study suggests that the characteristics of each exercise condition are understood by comparing the muscle activity and muscle fatigue during Non-motorized Treadmill, Motorized Treadmill and Overground, In future studies, more data will be collected by using various age groups and various speeds. Based on this, we will be able to present effective exercise.
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