Updated on 01/06/2025
Fats in the body are only consumed by the nervous system and stored in adipose cells.
When the atmosphere is flooded with water, blood cholesterol can rise significantly higher than normal.
Exercise and neurotransmitters are important for reducing blood cholesterol.
Fats are used by the nervous system to produce neurotransmitters in the form of electrical charges, or neutrons. These neutrons circulate through the nervous system and, when they reach the cells, are oxidized by oxygen. These oxidized neurotransmitters end up being eliminated by the lungs, by melanocytes, forming melanin in melanosomes through oxidation, or by attracting calcium or iron particles from the antibodies of melanocytes.
Fats are normally present in all foods, including carbohydrates, which the body transforms into triglycerides.
When blood fats rise and the atmosphere is charged with water, physical performance is optimal, and this effect can be felt around us. When the nervous system consumes fats to produce neurotransmitters, proteins attract asteroids into orbits to be digested and transformed into dust, and these asteroids are rapidly disintegrated while we exercise. When the body consumes asteroids, physical performance is optimal, but it declines when this dust invades the Earth’s atmosphere for the following reasons: Dust needs to oxidize, and oxygen levels in the atmosphere decrease. This could be interpreted as muscle mass, or as oxidized neurotransmitters that end up attracting antibodies from melanocytes. Antibodies attract oxidized neurotransmitters to the blood.
When there is a lot of atmospheric dust, this could be interpreted as cholesterol dropping significantly and levels being low or very low, or as the body no longer producing triglycerides due to a sudden rise in atmospheric heat.
Neurotransmitters, when oxidized, also attract calcium particles from antibodies for the oxygen system and iron for the production of red blood cells.
If fats and atmospheric water levels do not rise to certain levels, asteroid decomposition stops and asteroids are no longer absorbed, as long as atmospheric dust remains. In this case, physical performance is more fatigued, but melanin and the oxygen system can be improved.
If we notice that light doesn’t trap photons, cholesterol rises, and physical performance can be optimal, until the light traps photons and is no longer white. This is when the dust begins to oxidize, and colored photons can be seen in the light. Without photons, optimal physical performance is achieved, and with photons, good properties for minerals in the blood, for the oxygen system, and for melanin. Without photons, it’s a symptom that the atmosphere has water, and with a lot of water, vitamin D is sometimes necessary to dissolve fats or to produce extra neurotransmitters at night, when humidity is highest. If the earth always had white photons or water, bones would suffer more, requiring extra neurotransmitters thanks to vitamin D. If the earth had many photons, it would be warmer and with other beneficial properties and others worse. With fewer photons, the physical properties would be a little better, for example, but poor for other properties. That’s why the atmosphere is very changeable, but balance is necessary.
Asteroids are actually a bit like what leukocytes digest, according to hormones, primarily sugars, and these grind them into antibodies or mineral properties, which remain in the blood, not in cells, and these attract oxidized neurotransmitters or neutrons, which makes the asteroid pick up speed. In the blood, antibodies attract the neurotransmitter, or the neurotransmitter attracts mineral remains or antibodies to skeletal cells, for example. Mineral remains or oxidized antibodies with neurotransmitters in the blood are also eliminated by the liver.
Another perspective on this is that, when there is famine, antibodies to or mineral remnants are more utilized by the body and this can release the viruses from the antibody or unpack them after phagocytizing the leukocyte, to take advantage of the minerals.
Another issue is the sugars that end up in antibodies, which plug holes in chromosomes until the oxygen cargo manipulated by neurotransmitters arrives, and this charged oxygen eventually binds to the antibody to be eliminated by the lungs, liver, or kidneys.
During exercise, when we perform at a higher level of performance, these antibodies saturate the chromosome holes more due to the increased oxygen content. With aging, leukocyte levels can also drop and blood sugar levels can rise, but the sugar doesn’t end up in antibodies because leukocytes don’t transform sugar, and physical performance declines because oxygen or antibodies can’t be oxidized.