Faster heart rate recovery was significantly associated with lower post-exercise levels of lipid metabolites, particularly acylcarnitines, exclusively following vigorous-intensity exercise.
RCT (n=17)
Randomized crossover
No
Does heart rate recovery reflect post-exercise lipid metabolism following moderate- and vigorous-intensity exercise in healthy young men?
Faster heart rate recovery after vigorous exercise is associated with more efficient post-exercise lipid metabolism, suggesting HRR is a useful non-invasive marker of metabolic fitness.
Estimación del efecto: 0.79-fold to 1.58-fold per SD in HRR
valor p: p=q < 0.05
Heart rate recovery (HRR) indicates post-exercise autonomic regulation and serves as a marker of cardiorespiratory fitness and mortality risk. Autonomic and metabolic recovery are both integral to post-exercise homeostasis, yet how HRR relates to metabolic recovery remains unclear. To address this gap, we analyzed data from a randomized crossover trial in 17 healthy, physically active young men, each performing 30 min of both moderate- and vigorous-intensity ergometer cycling. Plasma samples collected before exercise and at multiple recovery time points were analyzed using UPLC–MS/MS–based untargeted metabolomics, covering more than 1000 metabolites. HRR was calculated using a monoexponential decay model, and associations were examined using linear mixed models. Individuals with faster HRR exhibited significantly lower post-exercise levels across a range of lipid metabolites, particularly acylcarnitines. These associations were stronger for HRR than VO₂peak and were statistically significant only in the later recovery period (90–180 min post-exercise), exclusively following vigorous-intensity exercise. Our findings suggest that HRR reflects post-exercise lipid metabolism under conditions of high metabolic demand. The observed metabolite patterns are indicative of differences in β-oxidation, lipid accumulation, reliance on ω-oxidation, and mitochondrial turnover, and are consistent with more efficient post-exercise lipid metabolism. HRR may provide a simple marker of metabolic or cardiorespiratory fitness and could be relevant for monitoring exercise responses and assessing cardiometabolic health. However, confirmation in larger and more diverse cohorts is required. The trial was registered on October 5, 2017, at the German Clinical Trials Register under the registration number DRKS00009743 (Universal Trial Number of WHO: U1111-1200–2530).
Weber et al. (Sat,) conducted a rct in Healthy (n=17). Heart rate recovery (HRR) vs. Slower heart rate recovery was evaluated on Post-exercise metabolite levels (lipid metabolites, acylcarnitines) (0.79-fold to 1.58-fold per SD in HRR, p=q < 0.05). Faster heart rate recovery was significantly associated with lower post-exercise levels of lipid metabolites, particularly acylcarnitines, exclusively following vigorous-intensity exercise.
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