Updated 12/22/2024
The oxygen and hydrogen that we absorb through the lungs could be transformed into chemical messengers from neurons to cells and from cells to neurons.
The consumption of oxygen that we absorb through the lungs when we exercise could be 30% or 40% for chemical messengers from neurons to muscle motor cells. The more intense the exercise, the more chemical messengers to move faster and also the greater oxygen consumption.
When we rest, the chromosome genes close and we can notice more molecular weight than when we run or exercise.
In old age, neurons and cells lose the ability to absorb oxygen or hydrogen and this translates into fewer chemical messengers from the neurons and this loss of capacity to absorb oxygen leads to fewer chemical messengers and less mobility.
In order to recover the capacity to absorb more oxygen and reduce molecular weight, the cells have to work longer, in such a way that, like a tire being inflated, the more the neuron and the cells work, the more gas capacity the cell takes and reduces the molecular weight.
How is it done? When the neurons take gas capacity or are inflated with oxygen, the motor cells have to open genes in the chromosome sequences to digest the cell molecules. These genes are two per molecule and are activated by weight, one to absorb and another gene to lose gases and when this happens, the neurons become somewhat cloudy or begin to lose oxygen for the digestive process, placebo effect, but it can be dangerous, due to a stroke if it lasts too long. After spending some time under this effect, the motor cells lose molecular weight due to the digestive effect and become rich in oxygen, at which point the motor cells send a chemical messenger and the neuron activates genes in its chromosomes in the same way.
This exercise must be repeated more times and the faster this exercise is done, the more mobility we will gain if we have aged.
Another thing to bear in mind is that when we are young or middle-aged, it can happen that neurons are always loaded with oxygen and hardly metabolize proteins. In this case, when neurons are loaded with oxygen or gases for a long time, it is a positive symptom, but it is advisable to activate genes in chromosomes so that they lose gases through the lungs. This effect causes proteins to be metabolized and lowers protein levels in cells, which can cause harmful effects due to their abundance. For example, a lot of protein suffocates cells a lot, because it expels gases with more force, but this is in certain doses, since muscle cells have to expel gases, but if they expel them with a certain force, it is difficult for them to take in gases and the more protein, the more force they have to expel and the more gases the cells absorb.
This effect must be seen by each person for themselves and they must calculate the optimal protein levels for physical performance. However, when we age, the protein level is higher and losing gases in the neurons helps metabolize proteins, which remain in cells for a long time, and by reducing the protein, the neurons can become loaded with more gases. In this process, in the neurons, it causes a placebo effect, in a short space of time if we are young and more so when we are older.