Add to ORKGHigh intensity exercise results in an excess of hydrogen ions and acute, transient reductions in blood and muscle pH. Sodium bicarbonate ingestion is a strategy employed by many athletes to increase the buffering capacity for such hydrogen ions in an attempt to offset acidosis and improve or maintain performance. However, the acute doses used in such scenarios can result in gastrointestinal discomfort. More recent work has considered lower doses and determination of individual peaks in alkalosis. This commentary will overview conventional ingestion strategies and consider a complimentary approach to ingestion dosage in relation to a range of body masses
Background: Current evidence suggests sodium bicarbonate (NaHCO3) should be ingested based upon the ...
Purpose: The aim of this study was to determine whether gastrointestinal (GI) distress affects the e...
The ability to sustain intense exercise seems to be partially limited by the body's capability to co...
High intensity exercise results in an excess of hydrogen ions and acute, transient reductions in blo...
High-intensity exercise results in increased hydrogen cation (H+) production in the working muscle, ...
High intensity exercise can be maintained for only short periods of time. Cessation of short term, h...
To defend against hydrogen cation accumulation and muscle fatigue during exercise, sodium 20 bicarbo...
Consumption of sodium bicarbonate (300 mg/kg 1-2 h before exercise) can temporarily increase blood b...
To defend against hydrogen cation accumulation and muscle fatigue during exercise, sodium bicarbonat...
The aim of this study was to determine the individual variability in time to peak pH after the consu...
High-intensity exercise results in hydrogen ion accumulation, which can have a deleterious effect on...
For many years coaches and trainers have recommended sodium bicarbonate (NaHCO3) to increase perform...
Based on a comprehensive review and critical analysis of the literature regarding the effects of sod...
Introduction: The exact causes of Exercise Induced Arterial Hypoxemia (EIAH) are not yet known. Earl...
This study investigated the effect of post-exercise sodium bicarbonate (NaHCO3) ingestion on acid-ba...
Background: Current evidence suggests sodium bicarbonate (NaHCO3) should be ingested based upon the ...
Purpose: The aim of this study was to determine whether gastrointestinal (GI) distress affects the e...
The ability to sustain intense exercise seems to be partially limited by the body's capability to co...
High intensity exercise results in an excess of hydrogen ions and acute, transient reductions in blo...
High-intensity exercise results in increased hydrogen cation (H+) production in the working muscle, ...
High intensity exercise can be maintained for only short periods of time. Cessation of short term, h...
To defend against hydrogen cation accumulation and muscle fatigue during exercise, sodium 20 bicarbo...
Consumption of sodium bicarbonate (300 mg/kg 1-2 h before exercise) can temporarily increase blood b...
To defend against hydrogen cation accumulation and muscle fatigue during exercise, sodium bicarbonat...
The aim of this study was to determine the individual variability in time to peak pH after the consu...
High-intensity exercise results in hydrogen ion accumulation, which can have a deleterious effect on...
For many years coaches and trainers have recommended sodium bicarbonate (NaHCO3) to increase perform...
Based on a comprehensive review and critical analysis of the literature regarding the effects of sod...
Introduction: The exact causes of Exercise Induced Arterial Hypoxemia (EIAH) are not yet known. Earl...
This study investigated the effect of post-exercise sodium bicarbonate (NaHCO3) ingestion on acid-ba...
Background: Current evidence suggests sodium bicarbonate (NaHCO3) should be ingested based upon the ...
Purpose: The aim of this study was to determine whether gastrointestinal (GI) distress affects the e...
The ability to sustain intense exercise seems to be partially limited by the body's capability to co...