Department of Integrative Physiology, Institute for Nutrition, Exercise and Sports, University of Copenhagen, Copenhagen, Denmark.
Sports Med. 2023 Dec;53(12):2447-2461. doi: 10.1007/s40279-023-01902-4. Epub 2023 Aug 18.
According to the principle of specific adaptations to imposed demands, training induces specific adaptations that predominantly transfer towards performance tasks of similar physiological and/or biomechanical characteristics. Functional performance improvements secondary to resistance and plyometric training have been hypothesized to be force-vector specific; however, the literature pertaining to this matter appears somewhat equivocal.
The objective of the present systematic review with meta-analysis was to synthesize the available body of literature regarding the performance implications of vertically and horizontally oriented resistance- and plyometric training.
The review drew from the following sources: PubMed, Web of Science, Scopus, Physiotherapy Evidence Database (PEDro), Cochrane Library, Cumulative Index of Nursing and Allied Health Literature (CINAHL), SPORTDiscus and Google Scholar.
To qualify for inclusion, studies had to compare the efficacy of vertically and horizontally oriented resistance and/or plyometric training, with one or multiple outcome measures related to vertical/horizontal jumping, sprinting and/or change of direction speed (CODS).
For each outcome measure, an inverse-variance random effects model was applied, with between-treatment effects quantified by the standardized mean difference (SMD) and associated 95% confidence- and prediction intervals.
Between-treatment effects were of trivial magnitude for vertical jumping (SMD = - 0.04, P = 0.69) and long-distance (≥ 20 m) sprinting (0.03, P = 0.83), whereas small to moderate effects in favor of horizontal training were observed for horizontal jumping (0.25, P = 0.07), short-distance (≤ 10 m) sprinting (0.72, P = 0.01) and CODS (0.31, P = 0.06), although only the short-distance sprint outcome reached statistical significance.
In conclusion, our meta-analysis reveals a potential superiority of horizontally oriented training for horizontal jumping, short-distance sprinting and CODS, whereas vertically oriented training is equally efficacious for vertical jumping and long-distance sprinting. From an applied perspective, the present analysis provides an advanced basis for weighting of vertical and horizontal force-vector exercises as an integrated component for optimizing sport-specific performances. The present systematic review with meta-analysis was not a priori registered.
根据特定适应强加需求的原则,训练会引起特定的适应,这些适应主要转移到具有相似生理和/或生物力学特征的性能任务上。已经假设,抗阻训练和增强式训练引起的功能性表现提高与力向量有关;然而,关于这个问题的文献似乎有些模棱两可。
本系统综述和荟萃分析的目的是综合有关垂直和水平方向的抗阻和增强式训练对性能影响的现有文献。
综述从以下来源中获取:PubMed、Web of Science、Scopus、物理治疗证据数据库(PEDro)、Cochrane 图书馆、护理和联合健康文献累积索引(CINAHL)、SPORTDiscus 和 Google Scholar。
符合纳入标准的研究必须比较垂直和水平方向的抗阻和/或增强式训练的疗效,使用一个或多个与垂直/水平跳跃、冲刺和/或变向速度(CODS)相关的多项结果测量指标。
对于每个结果测量指标,应用逆方差随机效应模型,通过标准化均数差(SMD)和相关的 95%置信区间和预测区间来量化治疗间效应。
垂直跳跃的治疗间效应为微小(SMD = -0.04,P = 0.69),长距离(≥20 米)冲刺的治疗间效应为微小(0.03,P = 0.83),而水平训练更有利于水平跳跃(0.25,P = 0.07)、短距离(≤10 米)冲刺(0.72,P = 0.01)和 CODS(0.31,P = 0.06)的小到中等效应,尽管只有短距离冲刺的结果达到统计学意义。
总之,我们的荟萃分析显示,水平方向的训练对水平跳跃、短距离冲刺和 CODS 具有潜在的优势,而垂直方向的训练对垂直跳跃和长距离冲刺同样有效。从应用的角度来看,本分析为将垂直和水平力向量练习作为优化特定运动表现的综合组成部分进行加权提供了一个先进的基础。本系统综述和荟萃分析没有事先注册。
