School of Human Kinetics and Recreation, Memorial University of Newfoundland, St. John's, NL A1C 5S7, Canada.
Appl Physiol Nutr Metab. 2009 Dec;34(6):1008-16. doi: 10.1139/H09-102.
Time constraints are cited as a barrier to regular exercise. If particular exercises can achieve multiple training functions, the number of exercises and the time needed to achieve a training goal may be decreased. It was the objective of this study to compare the extent of trunk muscle electromyographic (EMG) activity during running and callisthenic activities. EMG activity of the external obliques, lower abdominals (LA), upper lumbar erector spinae (ULES), and lumbosacral erector spinae (LSES) was monitored while triathletes and active nonrunners ran on a treadmill for 30 min at 60% and 80% of their maximum heart rate (HR) reserve, as well as during 30 repetitions of a partial curl-up and 3 min of a modified Biering-Sørensen back extension exercise. The mean root mean square (RMS) amplitude of the EMG signal was monitored over 10-s periods with measures normalized to a maximum voluntary contraction rotating curl-up (external obliques), hollowing exercise (LA), or back extension (ULES and LSES). A main effect for group was that triathletes had greater overall activation of the external obliques (p < 0.05), LA (p = 0.01), and LSES (p < 0.05) than did nonrunners. Main effects for exercise type showed that the external obliques had less EMG activity during 60% and 80% runs, respectively, than with the curl-ups (p = 0.001). The back extension exercise provided less ULES (p = 0.009) and LSES (p = 0.0001) EMG activity than the 60% and 80% runs, respectively. In conclusion, triathletes had greater trunk activation than nonrunners did while running, which could have contributed to their better performance. Back-stabilizing muscles can be activated more effectively with running than with a prolonged back extension activity. Running can be considered as an efficient, multifunctional exercise combining cardiovascular and trunk endurance benefits.
时间限制被认为是进行规律运动的障碍。如果特定的运动可以实现多种训练功能,那么达到训练目标所需的运动次数和时间可能会减少。本研究的目的是比较跑步和体操活动中躯干肌肉肌电图(EMG)活动的程度。当三项全能运动员和活跃的非跑步者以 60%和 80%的最大心率储备在跑步机上跑步 30 分钟,以及进行 30 次半卷腹和 3 分钟改良 Biering-Sørensen 背部伸展运动时,监测外侧腹肌、下腹部(LA)、上腰椎竖脊肌(ULES)和腰荐部竖脊肌(LSES)的 EMG 活动。使用 10 秒时间段的均方根(RMS)幅度来监测肌电图信号的平均幅度,并用最大随意收缩旋转卷腹(外侧腹肌)、空心运动(LA)或背部伸展(ULES 和 LSES)的标准化措施进行测量。组间存在主要影响,即三项全能运动员的外侧腹肌(p < 0.05)、LA(p = 0.01)和 LSES(p < 0.05)的整体激活程度均大于非跑步者。运动类型的主要影响表明,在 60%和 80%跑步时,外侧腹肌的 EMG 活动分别小于半卷腹(p = 0.001)。背部伸展运动与 60%和 80%跑步相比,分别提供的 ULES(p = 0.009)和 LSES(p = 0.0001)EMG 活动较少。总之,跑步时,三项全能运动员的躯干激活程度大于非跑步者,这可能有助于他们的表现更好。与长时间的背部伸展活动相比,背部稳定肌肉可以通过跑步更有效地激活。跑步可以被视为一种有效的、多功能的运动,结合了心血管和躯干耐力的益处。
