Updated 06/09/2025
Antibodies are oxidized by neurotransmitters in a gaseous state or gases we breathe.
But what happens if there are more neurotransmitters and oxygen, but fewer antibodies? Well, what happens is that the neurotransmitters aren’t oxidized, and the cells become swollen with gases and are unable to produce physical performance.
For this, it’s important to regulate the chromosomes so they absorb less gas, because the atmosphere is rich in oxygen but poor in cosmic dust or antibodies. As long as it is in this state, physical performance doesn’t improve until it absorbs cosmic dust or antibodies. However, it can happen that the time it takes for the atmosphere to absorb cosmic dust is the same as it takes to produce physical performance.
The opposite can also happen: the atmosphere is rich in dust, or the blood is rich in antibodies, due to sugars, and poor in gases and neurotransmitters. In this case, it’s better to drink water, consume protein and fats so that the atmosphere is enriched with water and oxygen from the oceans or comets. This way, the chromosomes can be regulated to calibrate the gases and antibodies in the body and atmosphere. Physical performance can be more stable every day, without ups and downs. It could also cause seasonal temperature changes.
The dosage of gases and antibodies is important, and sometimes too many unbalanced doses create days of worsening, until they slowly dissolve, or instantly on some days, due to an unbalanced excess. It’s necessary to be more stable every day, with measured doses, perhaps lower in advanced age. This depends on diet, DNA, and chromosomes, which must be calibrated.
An example of a very advanced age, with symptoms of severe decline in physical performance, is when I was vaccinated against the COVID virus and from then on, my physical performance declined. The COVID vaccine alleviates the antibody burden and asteroids from space, and by alleviating the antibody burden in the blood and atmosphere, it may alleviate dangerous symptoms due to gas imbalance. However, when this antibody relief is too great, the opposite effect occurs: cells, the atmosphere, and neurotransmitters contain too many gases and too few antibodies, causing physical deterioration due to a lack of antibodies to oxidize neurotransmitters. This loss of physical performance from the COVID vaccine may be felt in older people.
The COVID vaccine may be a temporary load relief, causing asteroids to dissolve more slowly or later, causing a load-sharing effect. However, the vaccine may be too strong and shift the effect to another season. The effect of asteroid or antibody load can be shifted to a summer season, and the asteroid remains undissolved, because it needs to be in winter, due to atmospheric humidity load. If a chromosome modified or desynchronized by the vaccine does not distribute the gaseous and antibody load across seasons, the worsening can be chronic. Because in winter, the chromosome may coincidentally create gaseous load in the atmosphere instead of creating antibody load.
At a very advanced age, with almost complete loss of movement, chromosomes could become desynchronized for up to four years, coinciding with leap years. It may be necessary to calculate the time during the day or hours of sunlight, and the time at night, and it may be necessary to calculate one minute per day to synchronize the affected chromosome.
This effect is somewhat related to calorie intake. If calories are burned too quickly, they become very volatile and do not create adequate physical performance. This could be due to the fact that less asteroids are present in the solar system, the planets move very quickly, and the hours of sunlight or exercise become shorter or slower due to a lack of oxygen. If the day becomes shorter and the solar system becomes more asteroid-laden, the daily intake we consume could lead to severe obesity or other problems.
If we eat a lot and have limited mobility, we may occasionally experience a rapid heart rate when we get tired, especially when calories are very volatile or high, and the heart’s chromosomes may need to be synchronized with this change in heart rhythm to the effective calories, which may be as many or as few as we think.
These rapid heart rates are necessary; stopping them or reducing the heart’s pumping capacity or strength is not enough, because it prevents the intake of antibodies, which are the calories. By accelerating or increasing the heart rate, the blood moves more and takes in more oxygen, because more blood moves when the heart exerts force, which will provide more oxygen to ingest the calories that will be the oxidized antibodies.
It could be that these important chromosomes that regulate water and dust in the atmosphere do not match for everyone, possibly due to the month in which we were born, and this may be the reason that, in plants, which only reproduce on certain dates, makes them live for many years, since the atmosphere may be favorable to them, due to the days and seasons, and for us, only modifying these chromosomes could save us.