In the Netherlands, all 14-year-old children learn at school that muscles use sugar as fuel. According to Wikipedia, muscles convert sugar to Adenosine triphosphate (ATP) and ATP is the actual fuel of muscles.
According to an article in this newspaper from about thirty years ago, a mutation occurred five million years ago that made the body of apes no longer able to produce vitamin C. As a result, they were forced to eat plants. Plants contain much more sugars and according to that article, those sugars have made all the developments of the last five million years possible.
But if sugars are really as dangerous as doctors claim, you would expect that those apes would have gone blind within a few years and then become extinct.
I think I have found a solution to this dilemma.
In 2021, I discovered that if you train your oblique abdominal muscles, you will get considerably more energy and your eyes will work better. In 2023, it turned out that this also happens when you train your calf muscles.
So I wonder. Is it possible that five million years ago a second mutation occurred in which the back door of the oblique abdominal muscles was opened. Sugars enter through the front door. Almost all muscles can convert sugars into ATP. That ATP would enter the bloodstream through the back door. This would have a number of advantages.
To start with, the oblique abdominal muscles would be able to process an almost infinite amount of sugar. Another advantage is that it becomes possible to develop muscle cells that do not have their own ATP production. The advantage of this seems to be that they do not become weak if they are not used for three months. These muscle cells seem to be in the first three parts of the rectus abdominis, in the feet and part of the lower legs and in the accommodation muscles in the eyes.
When the extended foot developed about two million years ago, it turned out that the oblique abdominal muscles could not supply sufficient ATP. So the calf muscles developed in a way that it could deposit extra ATP in the bloodstream.