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- Title
Effects of high‐intensity interval training on trajectories of gas‐exchange measures and blood lactate concentrations during cardiopulmonary exercise tests in cardiac rehabilitation—A randomized controlled trial.
- Authors
Heber, Stefan; Gleiss, Andreas; Kuzdas‐Sallaberger, Marina; Hausharter, Maria; Matousek, Melanie; Ocenasek, Helmuth; Fischer, Beatrix; Volf, Ivo; Pokan, Rochus
- Abstract
Background: The optimal allocation of training time to different intensities in cardiac rehabilitation is still under debate. The objective of this study was to explore whether in a 12‐week cardiac rehabilitation program, replacement of two of four usual continuous endurance training (CET) sessions per week with energy expenditure‐matched high‐intensity interval training (HIIT) affects the trajectories of cardiopulmonary exercise test (CPET) variables such as ventilatory equivalents for O2 (EqO2) and CO2 (EqCO2), and blood lactate (BLa) during CPET. Methods: Eighty‐two male patients undergoing outpatient cardiac rehabilitation after an acute coronary syndrome were randomized to CET (age [mean ± SD] 61.7 ± 9.8 years, body mass index [BMI] 28.1 ± 3.4) or HIIT+CET (60.0 ± 9.4 years, BMI 28.5 ± 3.5). CPET was performed at baseline, after 6 and after 12 weeks. HIIT consisted of ten 60‐s bouts of cycling at an intensity of 100% of the maximal power output (Pmax) achieved in an incremental test to exhaustion, interspersed with 60 s at 20% Pmax. CET was performed at 60% Pmax with equal duration. Training intensities were adjusted after 6 weeks to account for the training‐induced improvement in cardiorespiratory fitness. The entire functions defining the relationship between EqO2, EqCO2, and BLa, with power output were modeled using linear mixed models to assess how these trajectories are affected by HIIT. Results: After 6 and 12 weeks, Pmax increased to 112.9% and 117.5% of baseline after CET, and to 113.9% and 124.7% after HIIT+CET (means). Twelve weeks of HIIT+CET elicited greater reductions of EqO2 and EqCO2 than CET alone (p < 0.0001 each) in a range above 100% baseline Pmax. Specifically, at 100% of baseline Pmax, least squares arithmetic mean EqO2 values of CET and HIIT+CET patients were 36.2 versus 33.5. At 115% and 130% of baseline Pmax, EqO2 values were 41.2 versus 37.1 and 47.2 versus 41.7. Similarly, corresponding EqCO2 values of CET and HIIT+CET patients were 32.4 versus 31.0, 34.3 versus 32.2, and 37.0 versus 34.0. Conversely, mean BLa levels (mM) were not differently affected (p = 0.64). At 100%, 115%, and 130% of baseline Pmax after 12 weeks, BLa levels did not differ to a relevant extent (least squares geometric means, 3.56 vs. 3.63, 5.59 vs. 5.61, 9.27 vs. 9.10). Conclusions: While HIIT+CET reduced ventilatory equivalents more effectively than CET alone, specifically when patients were approaching their maximal performance during CPET, both training strategies were equally effective in reducing BLa levels.
- Subjects
EXERCISE tests; OXYGEN consumption; CARDIOPULMONARY system; RANDOMIZED controlled trials; LACTATES; CARDIAC rehabilitation; DESCRIPTIVE statistics; RESEARCH funding; HIGH-intensity interval training; STATISTICAL sampling
- Publication
Scandinavian Journal of Medicine & Science in Sports, 2023, Vol 33, Issue 8, p1345
- ISSN
0905-7188
- Publication type
Article
- DOI
10.1111/sms.14380