跑步机滑倒训练的强度与泛化:高强度还是低强度,逐渐增加还是逐渐降低?
Intensity and generalization of treadmill slip training: High or low, progressive increase or decrease?
作者信息
Liu Xuan, Bhatt Tanvi, Pai Yi-Chung Clive
机构信息
Department of Physical Therapy, University of Illinois at Chicago, Chicago, IL 60612, USA.
Department of Physical Therapy, University of Illinois at Chicago, Chicago, IL 60612, USA.
出版信息
J Biomech. 2016 Jan 25;49(2):135-40. doi: 10.1016/j.jbiomech.2015.06.004. Epub 2015 Jun 26.
The purpose of this study was to investigate the efficacy of different treadmill slip training protocols on the transfer of reactive and proactive control of center of mass stability to a novel, over-ground slip. Four training protocols were investigated: high-intensity (HI; acceleration of all treadmill slips=12m/s(2)), low-intensity (LO; acceleration of all treadmill slips=6m/s(2)), progressively increasing intensity (INCR; acceleration of treadmill slips increasing from 6m/s(2) to 12m/s(2) over the course of training), and progressively decreasing intensity (DECR; acceleration of treadmill slips decreasing from 12m/s(2) to 6m/s(2) over the course of training). From a pool of 36 young subjects, nine were randomly assigned to each training protocol (HI, LO, INCR, and DECR). In each protocol, subjects underwent a series of 24 treadmill slips before they experienced a novel slip during over-ground walking. Measures from these subjects were compared across groups and to data from control subjects (CTRL, n=9) who had experienced a novel over-ground slip without treadmill training as part of a previous experiment. The results showed that treadmill slip training improved balance control on over-ground slip and had a larger effect on subjects׳ reactive control of stability (44.3%) than on proactive control (27.1%) in comparison with the CTRL group. HI yielded stronger generalization than LO, while INCR was only marginally better than DECR. Finally, the group means of stability displayed a clear ascending order from CTRL, LO, DECR, INCR, to HI.
本研究的目的是调查不同的跑步机滑倒训练方案对将质心稳定性的反应性和主动性控制转移到一种新的地面滑倒情况的效果。研究了四种训练方案:高强度(HI;所有跑步机滑倒的加速度 = 12m/s²)、低强度(LO;所有跑步机滑倒的加速度 = 6m/s²)、强度逐渐增加(INCR;在训练过程中,跑步机滑倒的加速度从6m/s²增加到12m/s²)和强度逐渐降低(DECR;在训练过程中,跑步机滑倒的加速度从12m/s²降低到6m/s²)。从36名年轻受试者中,随机将9名分配到每个训练方案(HI、LO、INCR和DECR)。在每个方案中,受试者在经历地面行走中的新滑倒之前,先进行一系列24次跑步机滑倒。对这些受试者的测量结果在各小组之间进行比较,并与作为先前实验一部分、未经过跑步机训练而经历了新的地面滑倒的对照组受试者(CTRL,n = 9)的数据进行比较。结果表明,与CTRL组相比,跑步机滑倒训练改善了地面滑倒时的平衡控制,并且对受试者稳定性的反应性控制(44.3%)的影响比对主动性控制(27.1%)的影响更大。HI比LO产生更强的泛化效果,而INCR仅略优于DECR。最后,稳定性的组均值呈现出从CTRL、LO、DECR、INCR到HI的明显升序排列。
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