Liu Xiao J, Ge Sha, Cordova Alberto, Yaghi Zayd, Jiang Bo Y, Yue Guang H, Yao Wan X
College of Art, Beijing Sport University, Beijing, China.
College of Sports Science, Tianjin Normal University, Tianjin, China.
Front Psychol. 2023 Jan 4;13:1052826. doi: 10.3389/fpsyg.2022.1052826. eCollection 2022.
The current review was aimed to determine the effectiveness of mental imagery training (MIT) on the enhancement of maximum voluntary muscle contraction (MVC) force for healthy young and old adults.
Six electronic databases were searched from July 2021 to March 2022. Search terms included: "motor imagery training," "motor imagery practice," "mental practice," "mental training," "movement imagery," "cognitive training," "strength," "force," "muscle strength," "performance," "enhancement," "improvement," "development," and "healthy adults."
Randomized controlled trials of MIT in enhancing muscle strength with healthy adults were selected. The decision on whether a study met the inclusion criteria of the review was made by two reviewers independently. Any disagreements between the two reviewers were first resolved by discussion between the two reviewers. If consensus could not be reached, then it would be arbitrated by a third reviewer.
Twenty-five studies including both internal MIT and external MIT were included in meta-analysis for determining the efficacy of MIT on enhancing muscle strength and 22 internal MIT were used for subgroup analysis for examining dose-response relationship of MIT on MVC.
MIT demonstrated significant benefit on enhancing muscle strength when compared with no exercise, Effect Size (ES), 1.10, 95% confidence interval (CI), 0.89-1.30, favoring MIT, but was inferior to physical training (PT), ES, 0.38, 95% CI, 0.15-0.62, favoring PT. Subgroup analysis demonstrated that MIT was more effective for older adults (ES, 2.17, 95% CI, 1.57-2.76) than young adults (ES, 0.95, 95% CI, 0.74-1.17), = 0.0002, and for small finger muscles (ES, 1.64, 95% CI, 1.06-2.22) than large upper extremity muscles (ES, 0.86, 95% CI, 0.56-1.16), = 0.02. No significant difference was found in the comparison of small finger muscles and large lower extremity muscles, = 0.19 although the ES of the former (ES, 1.64, 95% CI, 1.06-2.22) was greater than that of the later (ES, 1.20, 95%, 0.88-1.52).
This review demonstrates that MIT has better estimated effects on enhancing MVC force compared to no exercise, but is inferior to PT. The combination of MIT and PT is equivalent to PT alone in enhancing muscle strength. The subgroup group analysis further suggests that older adults and small finger muscles may benefit more from MIT than young adults and larger muscles.
本综述旨在确定心理意象训练(MIT)对增强健康年轻人和老年人最大自主肌肉收缩(MVC)力量的有效性。
于2021年7月至2022年3月检索了六个电子数据库。检索词包括:“运动意象训练”、“运动意象练习”、“心理练习”、“心理训练”、“运动想象”、“认知训练”、“力量”、“力”、“肌肉力量”、“表现”、“增强”、“改善”、“发展”以及“健康成年人”。
选取了MIT增强健康成年人肌肉力量的随机对照试验。由两名评审员独立决定一项研究是否符合综述的纳入标准。两名评审员之间的任何分歧首先通过两人之间的讨论解决。如果无法达成共识,则由第三名评审员进行仲裁。
25项包括内部MIT和外部MIT的研究被纳入荟萃分析以确定MIT增强肌肉力量的疗效,22项内部MIT研究用于亚组分析以检验MIT对MVC的剂量反应关系。
与无运动相比,MIT在增强肌肉力量方面显示出显著益处,效应量(ES)为1.10,95%置信区间(CI)为0.89 - 1.30,支持MIT,但不如体育训练(PT),PT的ES为0.38,95%CI为0.15 - 0.62,支持PT。亚组分析表明,MIT对老年人(ES为2.17,95%CI为1.57 - 2.76)比对年轻人(ES为0.95,95%CI为0.74 - 1.17)更有效,P = 0.0002;对小指肌肉(ES为1.64,95%CI为1.06 - 2.22)比对上肢大肌肉(ES为0.86,95%CI为0.56 - 1.16)更有效,P = 0.02。尽管前者(ES为1.64,95%CI为1.06 - 2.22)的ES大于后者(ES为1.20,95%,0.88 - 1.52),但在小指肌肉和下肢大肌肉的比较中未发现显著差异,P = 0.19。
本综述表明,与无运动相比,MIT在增强MVC力量方面有更好的估计效果,但不如PT。MIT和PT联合在增强肌肉力量方面等同于单独的PT。亚组分析进一步表明,老年人和小指肌肉可能比年轻人和大肌肉从MIT中获益更多。
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