School of Public Health, Sackler Faculty of Medicine, Tel-Aviv University, Tel-Aviv, Israel.
Sylvan Adams Sports Institute, Tel Aviv University, Tel-Aviv, Israel.
Sports Med. 2022 Feb;52(2):377-390. doi: 10.1007/s40279-021-01559-x. Epub 2021 Sep 20.
Prescribing repetitions relative to task failure is an emerging approach to resistance training. Under this approach, participants terminate the set based on their prediction of the remaining repetitions left to task failure. While this approach holds promise, an important step in its development is to determine how accurate participants are in their predictions. That is, what is the difference between the predicted and actual number of repetitions remaining to task failure, which ideally should be as small as possible.
The aim of this study was to examine the accuracy in predicting repetitions to task failure in resistance exercises.
Scoping review and exploratory meta-analysis.
A systematic literature search was conducted in January 2021 using the PubMed, SPORTDiscus, and Google Scholar databases. Inclusion criteria included studies with healthy participants who predicted the number of repetitions they can complete to task failure in various resistance exercises, before or during an ongoing set, which was performed to task failure. Sixteen publications were eligible for inclusion, of which 13 publications covering 12 studies, with a total of 414 participants, were included in our meta-analysis.
The main multilevel meta-analysis model including all effects sizes (262 across 12 clusters) revealed that participants tended to underpredict the number of repetitions to task failure by 0.95 repetitions (95% confidence interval [CI] 0.17-1.73), but with considerable heterogeneity (Q = 3060, p < 0.0001, I = 97.9%). Meta-regressions showed that prediction accuracy slightly improved when the predictions were made closer to set failure (β = - 0.025, 95% CI - 0.05 to 0.0014) and when the number of repetitions performed to task failure was lower (≤ 12 repetitions: β = 0.06, 95% CI 0.04-0.09; > 12 repetitions: β = 0.47, 95% CI 0.44-0.49). Set number trivially influenced prediction accuracy with slightly increased accuracy in later sets (β = - 0.07 repetitions, 95% CI - 0.14 to - 0.005). In contrast, participants' training status did not seem to influence prediction accuracy (β = - 0.006 repetitions, 95% CI - 0.02 to 0.007) and neither did the implementation of upper or lower body exercises (upper body - lower body = - 0.58 repetitions; 95% CI - 2.32 to 1.16). Furthermore, there was minimal between-participant variation in predictive accuracy (standard deviation 1.45 repetitions, 95% CI 0.99-2.12).
Participants were imperfect in their ability to predict proximity to task failure independent of their training background. It remains to be determined whether the observed degree of inaccuracy should be considered acceptable. Despite this, prediction accuracies can be improved if they are provided closer to task failure, when using heavier loads, or in later sets. To reduce the heterogeneity between studies, future studies should include a clear and detailed account of how task failure was explained to participants and how it was confirmed.
相对于任务失败的重复处方是一种新兴的阻力训练方法。在这种方法下,参与者根据他们对任务失败前剩余重复次数的预测来终止组。虽然这种方法很有前景,但它发展的一个重要步骤是确定参与者在预测中的准确性。也就是说,预测和实际任务失败前剩余的重复次数之间的差异有多大,理想情况下,这个差异应该尽可能小。
本研究旨在检验在阻力运动中预测任务失败的重复次数的准确性。
范围综述和探索性荟萃分析。
2021 年 1 月,使用 PubMed、SPORTDiscus 和 Google Scholar 数据库进行了系统文献检索。纳入标准包括:在进行一组至任务失败的运动前或运动中,预测完成各种阻力运动的重复次数的健康参与者的研究;这些研究在之前的研究中已经完成至任务失败。共有 16 篇文献符合纳入标准,其中 13 篇文献涵盖了 12 项研究,共有 414 名参与者,纳入了我们的荟萃分析。
包括所有效应量(12 个组内共 262 个)的主要多水平荟萃分析模型表明,参与者倾向于低估任务失败前的重复次数,低估了 0.95 次(95%置信区间 0.17-1.73),但存在很大的异质性(Q=3060,p<0.0001,I=97.9%)。元回归表明,当预测更接近组失败时(β=−0.025,95%置信区间−0.05 至 0.0014),当完成至任务失败的重复次数较低(≤12 次:β=0.06,95%置信区间 0.04-0.09;>12 次:β=0.47,95%置信区间 0.44-0.49)时,预测准确性略有提高。组号对预测准确性的影响微不足道,在后面的组中,预测准确性略有提高(β=−0.07 次,95%置信区间−0.14 至−0.005)。相比之下,参与者的训练状态似乎并没有影响预测准确性(β=−0.006 次,95%置信区间−0.02 至 0.007),实施上半身或下半身运动也没有影响(上半身-下半身=−0.58 次;95%置信区间−2.32 至 1.16)。此外,预测准确性的个体间差异很小(标准差 1.45 次,95%置信区间 0.99-2.12)。
参与者在独立于其训练背景的情况下,预测接近任务失败的能力并不完美。目前尚不清楚应该如何看待这种观察到的不准确性程度。尽管如此,如果在接近任务失败时、使用更重的负荷或在后面的组中提供预测,预测准确性可以得到提高。为了减少研究之间的异质性,未来的研究应该清楚和详细地说明如何向参与者解释任务失败,以及如何确认任务失败。
