Effects of Acute Moderate Hypoxia versus Normoxia on Metabolic and Cardiac Function and Skeletal Muscle Oxygenation during Endurance Exercise at the Same Heart Rate Level.
Hun-Young ParkWon-Sang JungSung-Woo KimJisu SeoYerin SunJae-Ho ChoiJisu KimKiwon LimPublished in: Metabolites (2022)
This study aimed to investigate the effects of acute moderate hypoxia (HYP), compared with those of normoxia (NORM), during endurance exercise with the same HR level on metabolic function, skeletal muscle oxygenation, and cardiac function. Twelve healthy men (aged 25.1 ± 2.3 years) completed 30 min of endurance exercise using a cycle ergometer with the same HR level (136.5 ± 1.5 bpm) corresponding to 70% maximal heart rate (HRmax) under NORM (760 mmHg) and HYP (526 mmHg, simulated 3000 m altitude) after a 30 min exposure in the respective environments on different days, in random order. Exercise load, rating of perceived exertion (RPE), metabolic function (saturation of percutaneous oxygen; SpO 2 , minute ventilation; oxygen uptake; VO 2 , carbon dioxide excretion; respiratory exchange ratio; RER, and oxygen pulse), skeletal muscle oxygen profiles (oxyhemoglobin, oxhb, deoxyhemoglobin, dxhb, total hemoglobin, and tissue oxygenation index; StO 2 ), and cardiac function (heart rate, stroke volume, cardiac output, end-diastolic volume, end-systolic volume, and ejection fraction) were measured during endurance exercise. HYP showed a lower exercise load with the same RPE during exercise than did NORM. In addition, HYP showed a lower SpO 2 , VO 2 , oxygen pulse, oxhb, and StO 2 , and a higher RER and dxhb during exercise than NORM. We found that HYP showed lower exercise load and VO 2 at the same RPE than NORM and also confirmed a higher anaerobic metabolism and oxygen inflow into skeletal muscle tissue due to the limitation of oxygen delivery capacity.
Keyphrases
- high intensity
- heart rate
- skeletal muscle
- resistance training
- blood pressure
- heart rate variability
- physical activity
- ejection fraction
- left ventricular
- insulin resistance
- liver failure
- endothelial cells
- heart failure
- adipose tissue
- atrial fibrillation
- blood flow
- hepatitis b virus
- drug induced
- coronary artery disease
- acute respiratory distress syndrome
- aortic valve
- subarachnoid hemorrhage
- type diabetes
- middle aged
- transcatheter aortic valve replacement
- mechanical ventilation