Centre for Fundamental and Clinical Movement Research, Lithuanian Sports University, Kaunas, Lithuania.
J Appl Physiol (1985). 2013 Oct 15;115(8):1191-5. doi: 10.1152/japplphysiol.00686.2013. Epub 2013 Aug 8.
We studied the relation between two common force modifications in skeletal muscle: the prolonged force depression induced by unaccustomed eccentric contractions, and the residual force depression (rFD) observed immediately after active shortening. We hypothesized that rFD originates from distortion within the sarcomeres and the extent of rFD: 1) correlates to the force and work performed during the shortening steps, which depend on sarcomeric integrity; and 2) is increased by sarcomeric disorganization induced by eccentric contractions. Nine healthy untrained men (mean age 26 yr) participated in the study. rFD was studied in electrically stimulated knee extensor muscles. rFD was defined as the reduction in isometric torque after active shortening compared with the torque in a purely isometric contraction. Eccentric contractions were performed as 50 repeated drop jumps with active deceleration to 90° knee angle, immediately followed by a maximal upward jump. rFD was assessed before and 5 min to 72 h after drop jumps. The series of drop jumps caused a prolonged force depression, which was about two times larger at 20-Hz than at 50-Hz stimulation. There was a significant correlation between increasing rFD and increasing mechanical work performed during active shortening both before and after drop jumps. In addition, a given rFD was obtained at a markedly lower mechanical work after drop jumps. In conclusion, the extent of rFD correlates to the mechanical work performed during active shortening. A series of eccentric contractions causes a prolonged reduction of isometric force. In addition, eccentric contractions exaggerate rFD, which further decreases muscle performance during dynamic contractions.
不习惯的离心收缩引起的力延长衰减,以及主动缩短后立即观察到的残余力衰减(rFD)。我们假设 rFD 源自肌节内的变形,并且 rFD 的程度:1)与缩短步骤中执行的力和功相关,这取决于肌节的完整性;2)通过离心收缩引起的肌节解聚而增加。9 名健康未经训练的男性(平均年龄 26 岁)参与了研究。在电刺激的膝关节伸肌中研究 rFD。rFD 定义为主动缩短后与纯等长收缩时的等速扭矩相比的等速扭矩降低。离心收缩是通过 50 次主动减速至 90°膝关节角度的重复跌落跳跃来进行的,然后立即进行最大向上跳跃。在跌落跳跃之前和之后 5 分钟至 72 小时评估 rFD。一系列跌落跳跃导致力延长衰减,在 20-Hz 刺激时比在 50-Hz 刺激时大两倍左右。在跌落跳跃之前和之后,rFD 与主动缩短期间进行的机械功增加之间存在显著相关性。此外,在跌落跳跃后,获得了明显较低的机械功 rFD。总之,rFD 的程度与主动缩短期间进行的机械功相关。一系列离心收缩会导致等长力的延长衰减。此外,离心收缩会夸大 rFD,从而进一步降低动态收缩期间的肌肉性能。
