Faculty of Sport and Health Sciences, University of Jyväskylä, Jyvaskyla, Finland.
Paavo Nurmi Center & Unit for Health and Physical Activity, University of Turku, Turku, Finland.
Int J Sports Physiol Perform. 2024 Jul 19;19(9):851-859. doi: 10.1123/ijspp.2024-0015. Print 2024 Sep 1.
Without appropriate standardization of exercise doses, comparing high- (HI) and low-intensity (LI) training outcomes might become a matter of speculation. In athletic preparation, proper quantification ensures an optimized stress-to-recovery ratio. This review aims to compare HI and LI doses by estimating theoretically the conversion ratio, 1:x, between HI and LI: How many minutes, x, of LI are equivalent to 1 minute of HI using various quantification methods? A scrutinized analysis on how the dose increases in relation to duration and intensity was also made.
An estimation was conducted across 4 categories encompassing 10 different approaches: (1) "arbitrary" methods, (2) physiological and perceptual measurements during exercise, (3) postexercise measurements, and comparison to (4a) acute and (4b) chronic intensity-related maximum dose. The first 2 categories provide the most conservative estimation for the HI:LI ratio (1:1.5-1:10), and the third, slightly higher (1:4-1:11). The category (4a) provides the highest estimation (1:52+) and (4b) suggests 1:10 to 1:20. The exercise dose in the majority of the approaches increase linearly in relation to duration and exponentially in relation to intensity.
As dose estimations provide divergent evaluations of the HI:LI ratio, the choice of metric will have a large impact on the research designs, results, and interpretations. Therefore, researchers should familiarize themselves with the foundations and weaknesses of their metrics and justify their choice. Last, the linear relationship between duration and exercise dose is in many cases assumed rather than thoroughly tested, and its use should be subjected to closer scrutiny.
如果没有适当的运动剂量标准化,那么比较高强度(HI)和低强度(LI)训练的结果可能就只是猜测而已。在运动准备中,适当的量化可以确保优化应激与恢复的比例。本综述旨在通过理论估计 HI 和 LI 剂量的转换比 1:x,来比较 HI 和 LI 剂量:使用各种量化方法,LI 中需要多少分钟 x 才能与 1 分钟 HI 等效?本文还仔细分析了剂量如何随时间和强度的增加而增加。
通过涵盖 10 种不同方法的 4 个类别进行了估计:(1)“任意”方法;(2)运动时的生理和感知测量;(3)运动后测量;以及(4a)急性和(4b)慢性与强度相关的最大剂量的比较。前两个类别为 HI:LI 比值提供了最保守的估计(1:1.5-1:10),第三个类别略高(1:4-1:11)。类别(4a)提供了最高的估计(1:52+),(4b)则表明为 1:10 至 1:20。在大多数方法中,运动剂量与时间呈线性关系,与强度呈指数关系。
由于剂量估计对 HI:LI 比值的评价存在差异,因此指标的选择将对研究设计、结果和解释产生重大影响。因此,研究人员应该熟悉其指标的基础和弱点,并证明其选择的合理性。最后,在许多情况下,线性关系是假设而非经过充分验证的,因此其使用应受到更严格的审查。
