Abstrakt: |
Purposes: In kettlebell sport (KS) half marathon, the lift of the kettlebell is required for the highest number of repetitions in 30 min. No data are available on cardiorespiratory and metabolic responses during this exercise routine. The aim of the study was to evaluate cardiopulmonary and metabolic responses to KS half marathon compared to 30 min treadmill running, chosen as a reference paradigm of aerobic exercise, at the same average oxygen consumption (VO2). Methods: A male elite KS athlete was enrolled in two trials separated by 7 days of rest. In the first trial, one-hand long-cycle KS exercise with a 1/3 body weight kettlebell was performed for 30 min (kettlebell half marathon, KT); in the second trial, 30 min treadmill running (TR) was performed at the same average VO2measured in the first trial (speed 9–10 km/h at 1° uphill inclination). Metabolic and cardiopulmonary assessments [respiratory exchange ratio (RER), tidal volume (TV), breathing frequency (f), minute ventilation (VE)], blood lactate (BL) kinetics, heart rate (HR), and blood pressure (BP) were measured in both experimental sessions. Results: The average VO2was 33.3 mL/min/kg in KT and 30.6 mL/min/kg in TR. The subject achieved RERpeak1.17, RERmean0.98, HRpeak172 bpm (94% HRmax), HRmean86% of HRmax, BPpeak220/100 mmHg in KT, BLpeak7.2 mmol/L (during trial) in KT and RERpeak1.13, RERmean0.89, HRpeak142 bpm (78% HRmax), HRmean70% of HRmax, BPpeak160/80 mmHg, BLpeak3.5 mmol/L (4 min after trial) mmol/L in TR. Conclusion: Data indicate that a KS half marathon determines much higher cardiopulmonary and metabolic responses to treadmill running performed at similar VO2. |