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  • 齐莉萍 ( 副教授 )

    的个人主页 http://faculty.dlut.edu.cn/lipingqi/zh_CN/index.htm

  •   副教授   硕士生导师
论文成果 当前位置: 中文主页 >> 科学研究 >> 论文成果
常运动对大学生Wingate无氧运动能力的影响

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论文类型:期刊论文
发表时间:2022-06-30
发表刊物:北京生物医学工程
所属单位:电子信息与电气工程学部
期号:3
页面范围:284-289,297
ISSN号:1002-3208
摘要:Objective To study the effect of the physical activity on the anaerobic exercise capacity,the Wingate test is taken to compare the anaerobic capacity between physically active students and sedentary students,and the naerobic fatigue characteristics of lower limb muscle groups are analyzed by surface electromyography (sEMG) signals.Methods We recruited 38 college male students,19 sedentary students and 19 physically active students,to perform the Wingate test on a bicycle ergometer.The differences in peak power output (PP),mean power output (MP),and anaerobic fatigue index (AFI) were compared between the two groups.The selection criteria was that the physically active students participated exercises more than 4 times a week and more than 30min a time,whereas the sedentary students participated exercises less than 3 times a week.The sEMG signals from rectus femoris,vastus medialis,vastus lateralis,biceps femoris long head were recorded during the Wingate tests.sEMG signals were analyzed by a wavelet transform method.Results The physically active students reached significantly higher PP and MP than sedentary students (P <0.05).The sEMG mean power frequency (MPF) from the four muscles decreased during the Wingate tests,and the decline of MPF were steeper for the physically active students than for the sedentary students.The EMG intensity showed different trends for the two groups of students.The anaerobic exercise capacity was closely related to the fast-twitch fiber.Conclusions The physically active students show significantly higher anaerobic capacity than the sedentary students.The anaerobic capacity is closely related to the fast-twitch fibers.Our results suggest that regular physical activities can increase the area of the fast-twitch fibers,which in turn increase muscle power output and speed.
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