This study is investigating the effects of oral ketone and sodium bicarbonate administration on physiological and metabolic parameters during cycling endurance exercise in hypoxia. Ketone body supplementation is commonly used among elite endurance athletes that also compete in the hypoxia (at altitude). To-date effects of ketones have only been investigated in normoxia and the data in hypoxia is lacking. Hence, we want to investigate the effect of oral ketone ester intake with and without additional sodium bicarbonate (NaHCO3) ingestion on i) blood-acid base balance and ii) exercise performance during prolonged exercise under hypoxic conditions. Information obtained via this study should provide valuable information with regard to optimisation of exercise training and athletic performance, and more importantly, provide pioneering insight on the metabolic and physiological responses to ketosis under hypoxic conditions.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
DOUBLE
Enrollment
14
75g ketone ester in the form of a drink \[96% (R)-3-hydroxybutyl (R)-3-hydroxybutyrate, Oxfordshire, UK)\] will be provided.
Sodium bicarbonate - widely accessible food ingredient will be provided.
Placebo
KU Leuven
Leuven, Belgium
Change in Cycling performance - Simulated 15-min long time trial
Performance (average power output) during the 15 min long time trial on an ergometer
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Cycling performance - Simulated Sprint
Time to exhaustion at 175% of the intensity of the second lactate threshold
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Blood acid-base balance (pH and [HCO3-]) during cycling
Blood acid-base balance assement
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Blood ketone concentrations during exercise
Blood ketone assesment
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Blood glucose concentrations during exercise
Blood glucose assesment
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Blood lactate concentrations during exercise
Blood lactate assesment
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in Respiratory parameters (VE, V̇O2 and V̇CO2) during exercise
Gas exchange measurement
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in arterial oxygen saturation during exercise
Pulse oxymetry measurement
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
Change in muscle oxygenation during exercise
Near infrared spectroscopy measuremet
Time frame: 5 hours - this is how long each experimental session is going to last. Subjects would be asked to do it 3 times as there are 3 different experimental conditions
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