Work rate adjustments needed to maintain heart rate and RPE during high-intensity interval training in the heat.

IF 3.2 3区医学 Q2 PHYSIOLOGY Frontiers in Physiology Pub Date : 2025-02-06 eCollection Date: 2025-01-01 DOI:10.3389/fphys.2025.1506325

Hillary A Yoder, Anne M Mulholland, Hayley V MacDonald, Jonathan E Wingo

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Abstract

Introduction: Higher work rates may be sustainable when maintaining target rating of perceived exertion (RPE) compared to maintaining target heart rate (THR) during high-intensity interval training (HIIT) exercise in hot conditions, but may also result in greater thermal strain and cardiovascular drift, as well as greater decrements in maximal oxygen uptake ( $\dot{V}$ O_2max).

Purpose: To test the hypotheses that maintaining target RPE compared to THR during HIIT in the heat results in 1) smaller work rate adjustments, 2) greater thermal and cardiovascular strain, and 3) larger decreases in $\dot{V}$ O_2max.

Methods: Eight adults (4 women) completed a graded exercise test on a cycle ergometer in 22°C and then 4 cycling trials in 35°C, consisting of an 8-min warm-up at 70% maximal heart rate (HR_max) or 12 RPE followed by 1 (15_HR and 15_RPE) or 5 (43_HR and 43_RPE) rounds of HIIT (1 round = 4 min work at 90% HR_max or 17 RPE and 3 min recovery at 70% HR_max or 12 RPE) totaling 15 min or 43 min of exercise, respectively. Each trial ended with a GXT to measure $\dot{V}$ O_2max.

Results: In the 43-min trials work rate decreased from the first to the fifth work interval in both conditions, but by a non-significant, yet moderately larger (ES = 0.53) amount during 43_HR (46 ± 29 W) compared to 43_RPE (30 ± 28 W). From the first to fifth work interval HR increased over time by 12 b⋅min^-1 in 43_RPE (p < 0.001), but did not increase during 43_HR (p = 0.36). Rectal temperature increases were not different between conditions (43_HR = 0.7°C, p < 0.001; 43_RPE = 0.8°C, p < 0.001). $\dot{V}$ O_2max decreased 15.6% (ES = 0.41) between 15_RPE and 43_RPE (p = 0.005), but it was not different over time during the HR-based trials [6.5%, ES = 0.16 (α adjusted for multiple comparisons = 0.0125) p = 0.03].

Conclusion: Maintaining target RPE and THR require considerable declines in work rate during HIIT in the heat, with ∼53% larger declines needed to maintain THR. The mitigation of cardiovascular drift in the THR trial may have contributed to the preservation of $\dot{V}$ O_2max.

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在高温高强度间歇训练中维持心率和RPE所需的工作速率调整。

简介：在高温条件下，与在高强度间歇训练（HIIT）中保持目标心率（THR）相比，在保持感知运动目标等级（RPE）时，更高的工作速率可能是可持续的，但也可能导致更大的热应变和心血管漂移，以及最大摄氧量（V˙O2max）的更大下降。目的：验证在高温条件下HIIT期间保持目标RPE（相对于THR）会导致1)更小的功率调整，2)更大的热应变和心血管应变，以及3)更大的V˙O2max降低的假设。方法:八个成年人(4女)完成渐进式锻炼测试周期测力计上22°C,然后4循环试验35°C,组成一个奥热身70%最大心率(HRmax)或12 RPE其次是1(15人力资源和15 RPE)或5(43人力资源和43 RPE)轮这种训练(1圆= 4分钟工作90% HRmax或17 RPE和3分钟恢复70% HRmax或12 RPE)共计15分钟或者43分钟的锻炼,分别。每个试验以GXT结束，以测量V˙O2max。结果：在43分钟的试验中，两种情况下的工作率从第一个工作间隔到第五个工作间隔都有所下降，但在43HR（46±29 W）期间的工作率与43RPE（30±28 W）相比，下降幅度不显著，但略大于（ES = 0.53）。从第一个工作间隔到第五个工作间隔，43RPE的工作率随时间增加了12 b·min-1 (p < 0.001)，但在43HR期间没有增加（p = 0.36）。两组间直肠温度升高无差异(43HR = 0.7°C, p < 0.001；43RPE = 0.8°C, p < 0.001)。在15RPE和43RPE之间，V˙O2max降低了15.6% (ES = 0.41) (p = 0.005)，但在基于hr的试验中，随着时间的推移，V˙O2max没有差异[6.5%,ES = 0.16 (α调整为多重比较= 0.0125)p = 0.03]。结论：维持目标RPE和THR需要在高温下HIIT期间大幅度降低工作速率，维持THR需要降低53%。THR试验中心血管漂移的缓解可能有助于V˙O2max的保存。

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来源期刊

Frontiers in Physiology PHYSIOLOGY-

CiteScore

6.50

自引率

5.00%

发文量

2608

审稿时长

14 weeks

期刊介绍： Frontiers in Physiology is a leading journal in its field, publishing rigorously peer-reviewed research on the physiology of living systems, from the subcellular and molecular domains to the intact organism, and its interaction with the environment. Field Chief Editor George E. Billman at the Ohio State University Columbus is supported by an outstanding Editorial Board of international researchers. This multidisciplinary open-access journal is at the forefront of disseminating and communicating scientific knowledge and impactful discoveries to researchers, academics, clinicians and the public worldwide.