https://www.a1supplements.com/sns-creatinol-o-phosphate-caps
$50 for 2 bags.
1.What Is It?
Creatinol-O-Phosphate, scientifically known as N-methyl-N-(beta-hydroxyethyl)guanidine o-phosphate, is a synthetic analogue of Creatine. It is often mistaken as being a substitute for the Creatine, however it should be viewed as a completely separate compound as it provides completely different effects to Creatine. Creatinol-O-Phosphate was originally created for its ability to work as a cardioprotective drug whilst also being used to treat irregular heartbeats. It has become increasingly popular as a performance enhancing supplement in the health & fitness industry due to its ability to prolong Anaerobic Glycolysis.
2.What Does It Do?
Creatinol-O-Phosphate acts as an intracellular buffer that prevents a rise in acidity (a drop in pH) within working muscles during Anaerobic Glycolysis. Anaerobic Glycolysis defines the process whereby glucose is transformed into lactate during times of limited oxygen availability (for example during exercise). It is useful for short term energy production for exercise lasting from 10 seconds to 2 minutes in duration in the presence of lactic acid.
When exercising, oxygen is required to break down glucose for energy. When insufficient oxygen is available a substance called lactate is produced, which can also be converted into energy in the absence of oxygen. However, the build-up of lactate can exceed the rate at which it is converted and used for energy, and cause muscle acidity levels to skyrocket in a bid to protect muscles from damage caused by such metabolic by-products such as Hydrogen Ions and Lactic Acid. This results in the burning sensation felt within working muscles, cramping and muscular fatigue, and is the usual catalyst for muscular failure.
By buffering this rise in muscle acidity, Creatinol-O-Phosphate allows muscular contractions to continue in the presence of Hydrogen Ions and Lactic Acid, which would otherwise cause muscular failure. As a result, a higher quantity of muscle fibres can be recruited and stimulated, especially those which have the highest potential for growth and often take the longest amount of time to be recruited.
$50 for 2 bags.
1.What Is It?
Creatinol-O-Phosphate, scientifically known as N-methyl-N-(beta-hydroxyethyl)guanidine o-phosphate, is a synthetic analogue of Creatine. It is often mistaken as being a substitute for the Creatine, however it should be viewed as a completely separate compound as it provides completely different effects to Creatine. Creatinol-O-Phosphate was originally created for its ability to work as a cardioprotective drug whilst also being used to treat irregular heartbeats. It has become increasingly popular as a performance enhancing supplement in the health & fitness industry due to its ability to prolong Anaerobic Glycolysis.
2.What Does It Do?
Creatinol-O-Phosphate acts as an intracellular buffer that prevents a rise in acidity (a drop in pH) within working muscles during Anaerobic Glycolysis. Anaerobic Glycolysis defines the process whereby glucose is transformed into lactate during times of limited oxygen availability (for example during exercise). It is useful for short term energy production for exercise lasting from 10 seconds to 2 minutes in duration in the presence of lactic acid.
When exercising, oxygen is required to break down glucose for energy. When insufficient oxygen is available a substance called lactate is produced, which can also be converted into energy in the absence of oxygen. However, the build-up of lactate can exceed the rate at which it is converted and used for energy, and cause muscle acidity levels to skyrocket in a bid to protect muscles from damage caused by such metabolic by-products such as Hydrogen Ions and Lactic Acid. This results in the burning sensation felt within working muscles, cramping and muscular fatigue, and is the usual catalyst for muscular failure.
By buffering this rise in muscle acidity, Creatinol-O-Phosphate allows muscular contractions to continue in the presence of Hydrogen Ions and Lactic Acid, which would otherwise cause muscular failure. As a result, a higher quantity of muscle fibres can be recruited and stimulated, especially those which have the highest potential for growth and often take the longest amount of time to be recruited.