Cocoa makes you fit faster
Cocoa contains a compound that boosts the positive effects of endurance exertion. Researchers at the University of California gave (-)-epicatechin to mice that walked fast for half an hour a day on a treadmill and observed that the mice's stamina increased dramatically. So does cocoa boost the effectiveness of condition training?
The compound tested is not a rare one. Analyses show that (-)-epicatechin is the most common epicatechin in our diet. Food mostly contains glycosylated analogues. In 100 g of dark
chocolate you'll find 50 mg catechins; a 250 ml cup of tea contains 35 mg.
Catechins are also called flavan-3-oles. Their basic skeletal structure is shown below. And below that you'll see the structural formula of (-)-epicatechin. The substance is found in cocoa, but also in tea and herbs. Many of the positive cardiovascular effects of cocoa are due to (-)-epicatechin. [Proc Natl Acad Sci U S A. 2006 Jan 24; 103(4): 1024-9.] The compound makes blood vessels more flexible because it boosts the production of NO in the blood vessel walls.
The researchers are interested to know whether there are nutrients that keep muscles fit for longer as we age. Muscle cells depend on their mitochondria for their energy supply. These are molecular power generators that convert nutrients like fatty acids into energy molecules for the cell to use. As we age, the number of mitochondria in our cells declines, and the quality of the ones left over declines too. An active lifestyle can combat this effect.
The catechins in cocoa boost the production of NO, and many substances that have the same effect are found in sports supplements. NO plays a key role in hypertrophy. Whether catechins in cocoa have a positive effect on muscles has never been studied ??? which is why the researchers decided to do so.
The Americans got half of a group of mice to walk fast for half an hour a day, five days a week, on a treadmill; the other half did no exercise. The exercise was low intensity. Half of both groups were given 1 mg (-)-epicatechin per kg bodyweight twice a day.
After 15 days the researchers measured how long the mice could keep going for until they were exhausted. They discovered that supplementation with (-)-epicatechin in both the active and non-active test animals had raised their endurance capacity by about thirty percent.
Cocoa contains a compound that boosts the positive effects of endurance exertion. Researchers at the University of California gave (-)-epicatechin to mice that walked fast for half an hour a day on a treadmill and observed that the mice's stamina increased dramatically. So does cocoa boost the effectiveness of condition training?
The compound tested is not a rare one. Analyses show that (-)-epicatechin is the most common epicatechin in our diet. Food mostly contains glycosylated analogues. In 100 g of dark
chocolate you'll find 50 mg catechins; a 250 ml cup of tea contains 35 mg.
Catechins are also called flavan-3-oles. Their basic skeletal structure is shown below. And below that you'll see the structural formula of (-)-epicatechin. The substance is found in cocoa, but also in tea and herbs. Many of the positive cardiovascular effects of cocoa are due to (-)-epicatechin. [Proc Natl Acad Sci U S A. 2006 Jan 24; 103(4): 1024-9.] The compound makes blood vessels more flexible because it boosts the production of NO in the blood vessel walls.
The researchers are interested to know whether there are nutrients that keep muscles fit for longer as we age. Muscle cells depend on their mitochondria for their energy supply. These are molecular power generators that convert nutrients like fatty acids into energy molecules for the cell to use. As we age, the number of mitochondria in our cells declines, and the quality of the ones left over declines too. An active lifestyle can combat this effect.
The catechins in cocoa boost the production of NO, and many substances that have the same effect are found in sports supplements. NO plays a key role in hypertrophy. Whether catechins in cocoa have a positive effect on muscles has never been studied ??? which is why the researchers decided to do so.
The Americans got half of a group of mice to walk fast for half an hour a day, five days a week, on a treadmill; the other half did no exercise. The exercise was low intensity. Half of both groups were given 1 mg (-)-epicatechin per kg bodyweight twice a day.
After 15 days the researchers measured how long the mice could keep going for until they were exhausted. They discovered that supplementation with (-)-epicatechin in both the active and non-active test animals had raised their endurance capacity by about thirty percent.