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Matrix and Gods.

Updated 22/08/2025

In The Matrix, the warrior gods don’t see each other. It’s a fight to the death by conquest, but everything goes wrong, and they end up seeing each other over a piece of cheese.

Sometimes we can lose sight of insects, due to their physical condition, survival, or trying to get to safety, but it can happen that we notice pinpricks, in schizophrenia, that could be a simple moth we don’t see.

Perhaps shooting stars are photons, or atmospheric shooting stars in the form of photons that attract asteroids, and with those asteroid minerals, life forms.

Perhaps a large asteroid needs rhythm on the planet and extreme heat to become almost photons to disintegrate.

Perhaps there is tiny life on Mars, which is the first time we’ve seen it. Life on Mars could exist in the form of photons of light, which cannot be captured by cameras and are like spirits or gods that materialize depending on what they hunt.

In schizophrenia, sometimes when you inject substances, you can have hallucinations of seeing marine animals on land, because the substance can cause the earth to absorb a lot of water. But when you see small photons, it could be a hidden insect that could cause a tumor.

On Mars, the insect may be the first or the last to emerge, but I assure you, it’s all for the same reason: a bowl of soup.

Sometimes there can be so many insects that we can’t see them, and they kill many plants, and we think they are rare diseases.

Im Sommer, wenn die Atmosphäre heiß ist, sieht man keine Insekten, sondern nur Photonen, aber wenn die Atmosphäre abkühlt, erscheinen Insekten und können ihre Nahrungsquelle ändern.

In summer, when the atmosphere is hot, insects aren’t seen; photons are, but when the atmosphere cools, insects appear and can change their food source. Could this theory suggest that colon cancer is caused by an invisible worm? Or also an internal tumor, a bacterium that can’t be seen, but can materialize with antibodies in the blood released by a photon due to a change in temperature or a change in its food source, which could be viruses, and the leukocyte isn’t ready.

In this case, when the cells run out of antibodies and begin to develop tumors, the chromosomes of the pancreatic cells must be modified so that they release more insulin and the leukocyte produces more antibodies until the bacteria escape the photon of light.

Sometimes a spider and a small fly don’t see each other, but they leave traces, such as a small stone on glass. This could be because a spider’s shell is made of metal, and the spider’s venom is designed to pierce it. Sometimes the trace could be due to a spider bite on the eye, which is why we close our eyelids when we sleep. But during the day, when we feel a sharp sting, it could be due to a small trace left behind if we see a photon of light in the eye.

Sometimes, when a spider grows, it can pierce a metal pipe like copper and cause a fault, but only occasionally when it has color and is very angry, and we may think it’s a mechanical failure. The pus generated by the eye can cause the tiny spider to relieve the pain and can lead to myopia. This is because the eye continues to generate pus that relieves the pain. When the pus dries up, the eye can lose melanin and become painful again.

Maybe one day you wake up like this, my photo.

And after a few years, pus may ooze out, along with the scar, with the fang marks from a spider. Positive days or photo gallery, from oldest to most recent. This summer. When it swells or seems to have pus, I pricked it a little, and the swelling began to reduce because blood mixed with pus came out, but the spider bite marks remain the same and aren’t from the needle. The tumor tans a lot due to the antibodies, and when the tumor clears, oxygen enters the tumor cells, generating the pus.

And when it’s like this, it could explode because the substance doesn’t pass into the bloodstream, due to the lack of antibodies in the cells and their receptors. Gas escapes through the holes, and when it comes into contact with the minerals, the gas explodes. It only expels the cells when the cells are devoid of antibodies. A spark can be generated and the gas explodes. Sometimes the scar is visible, and sometimes the hole is visible due to the CO2 content of the cell. The scar is platelets that burn and disappear when there is gas pressure on the cells. If the gas passes into the bloodstream, it can cause an arrhythmia.

After this, the spider is left without food and grows and looks for another food source. But sometimes it can eat ants, and sometimes it can’t because the ant gets a harder shell and releases venom again.

When you ride your bike, your performance level drops significantly, mainly due to wasps that can sting you and are very clever, calm, and playful. Image of my performance statistics. My heart rate doesn’t match what it used to be.

It could also be that psychotropic odors attract dangerous insects.

In the images above, you discover black spots, which are platelets. Often, as the tumor thins, you may discover platelets. If you remove the platelets, you may expel some of the pus that forms the explosive gas.

Actually, when a spider bites us and we don’t feel anything, the venom will be distributed among many cells, and as millimeters of skin tumor shrink, some of the tissue becomes inflamed, but fewer millimeters of tumor remain.

Some colorless spiders or insects may be more venomous because melanin spoils the venom.

The photos above may be of a larger spider than these photos of a smaller spider. These are photos of my finger.

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When you cut the seed, you can see the holes of a small spider’s fangs, which gradually deform to expel the venom. It could happen that you cut the seed repeatedly, and the same seed always emerges, because the potency of the venom could destroy a limb. Perhaps by cutting the seed repeatedly, it will stop expelling venom.

I know that Saturn and Jupiter create differences in leukocytes and their moons from one planet to the other; there are differences between venoms and viruses. It could be that Saturn has moons to create the leukocyte stem cell for spider venom if it enters the bloodstream. Jupiter could be macrophages.

As we age, these tumors may appear more frequently, due to the speed of these two planets orbiting the sun, due to the laborious reproduction of leukocytes, and their alignment could be a good peak for physical fitness.

Spider venom is another matter. When we have a skin tumor and we can identify the bite, it’s good to block the tumor cells with macrophage antibodies, not leukocyte antibodies. Once the tumor cells are blocked with macrophage antibodies, the viral load can increase. When the viral load in the blood, not in cells, increases significantly, we are more likely to see light photons, which can give rise to an insect. Light photons can only be seen with a high viral load in the blood, not in cells, and they are eliminated by the body. Insects can take advantage of this moment to become infected and create mutations, which can be the positive transmission of light photons to insects that we see. Blocking the venom of tumor cells with macrophage antibodies prevents the spider from becoming less venomous when it is visible. Light photons are not seen every day.

Another case that can occur, but with another insect, such as a wasp, is foot drop. If you have little adipose tissue around the fibula, when an insect like a wasp stings us, it can create inflammation that compresses the peroneal nerve. If we are diabetic or if our blood sugar levels rise and fall a lot, the antibodies may fail a little in the precision of the inflammation from the venom. Normally, a wasp is able to sting us without us realizing it, without us seeing it, or even feeling the sting, given its great ability to do so. We can see and feel it when it is most tired. Just as it can cause myopia, this venom can also create lasting inflammation that pinches the peroneal nerve, possibly leading to a slow recovery from foot drop.

Wasp venom contains serotonin and dopamine, which causes the venom to penetrate cells and antibodies to emerge, which is why swelling does not occur, which would concentrate the expulsion of the venom and the venom expands between cells and their proteins, which could create stiffness or inflammation that compresses the nerve or enlarges the tissue as is the case with myopia.

In this image, the nerve circuits between cells and the wasp venom proteins are seen in red. These proteins can inflame the cells, in white, which would pinch or press on the nerve circuit. The sting could be in the knee, which is the most fragile point for a wasp. When a wasp’s sting penetrates the peroneal nerve, the nerve in the knee becomes inflamed and pinched against the cells. For this, it’s a good idea to check the knee and make sure there’s no inflammation or cyst, and the venom should be dissolved little by little through the peroneal nerve until the footdrop or numbness regains sensitivity or touch.

It could happen in the summer, I don’t know, but we may sometimes notice vomiting sensations due to the breakdown of these venomous proteins in tissues. This effect may occur because leukocytes don’t produce antibodies that cut off the gas flow that breaks down proteins, thereby regulating proteins in tissues and improving recovery from footdrop. This event causes a drop in blood pressure, and the breakdown of these proteins ends up in the bloodstream, which could cause an upset stomach.

Insects that are invisible without photons of light may actually be in danger of extinction, like a simple wasp, and hidden photons could be their salvation until they reproduce. However, this could change the climate in winter and autumn, as the atmosphere would trap photons of light that make the insects positive. Some contain venom, and the venom proteins may be due to the lack of photons, causing the cells and the atmosphere to become darker. It may also happen that when they reproduce in large numbers, the venom protein is more harmless.

In the case of proteins, if the atmosphere traps photons and the culprit appears and the seasons change, the proteins could decompose, and the tumor disappears.

Sometimes these photons can hide dangerous or large insects. For example, a frog and its skin poison can reveal parasitic insects. When the frog is ingested, the insects lose physical qualities that can cause the insect to appear.

Sometimes a queen wasp could be very large and could travel from continent to continent. Can a spider cause a spark in a ceramic tile?

Changing the subject. Could it be that the dark spots on the sun, or black photons—because the sun is light, as seen in this image taken with my telescope—are photons of extinct life on the planets of the solar system, including Earth, or life that the solar system can support, and these black photons cast shadows on some planet in the solar system, and life re-emerges with these black photons? Could stars be completely black, and life on their planets makes them shine? Could it be that these sunspots disappear when a new, sustainable species is born? Could it be that the food pyramid of fauna is behind the life of the sun and its sunspots?

Another example of insect mutation could be glass. When a giant spider appears in a house, a larger flying insect could appear. Small flying insects crash into the glass and can get hurt, and this could cause a resistance mutation in flying insects resistant to glass. This could cause a mutation in a body resistant to impact, which would affect the size and could pass through the glass and break it. It would also cause an eye mutation, but it could affect the size, and light photons could appear.

Insects, too, might receive some photons from flying insects in early summer, which are very attracted to birds, changing their focus. Some harmless insects might be eaten by birds, so they might sometimes mutate and become poisonous, to their salvation. The family of flying insects loves each other and helps each other when they are in the minority. Rising temperatures in summer sometimes cause, for example, unidentified eye discomfort, but there are fire risks due to too much light. If a fire breaks out during a temperature spike, new species of flying insects might be seen, due to the lack of oxygen and the loss of mobility or physical strength of these dangerous insects, which might be visible but not in photons. This could help us understand the species and their venom, which could help with rare diseases.

Fires attract these insects to homes to save themselves. Could insects be the kings of the planet?

Insect species lay larvae, and some species defend their territory with their venom. Fires could prevent these insects from laying their larvae or eggs in safe places, such as homes or farmland.

A less-than-perfect variant that could be improved is this mosquito I found in my house. It has a wasp’s tail. Could it be poisonous?

This mosquito came out after a few minutes, when I was having eye pain, and the mosquito was scared and wouldn’t calm down, as if it had lost vision or had lost its sting. But there was an open window, and I don’t know. Could it be that the poison had failed?

Another example of protecting their insect larvae is dogs, who don’t like walking other dogs that aren’t native to the area due to the damage it can cause to the insect larvae. Larval damage in dog-dominated areas causes problems for dogs due to the attacks of these insects.

The world’s largest insects lay larvae or eggs that give rise to queens or smaller variants, as in the case of a wasp. The world’s largest insects are not the most common and usually appear when smaller variants of this insect disappear or proliferate. These largest insects in the world are true queens, which lay their larvae, which can be smaller variants and are capable of moving, especially on land.

These largest insects in the world tend to have tissues more similar to those of higher animals. In the case of a wasp, its tissue is similar to that of a snake and measures between 25 and 30 centimeters, but its colors remain the same as a smaller variant. If you see it, you may see the yellow-bellied wasp.

When these insects reproduce and generate atmospheric heat that tans the insects, they appear more frequently, and the most poisonous ones become nervous because the venom can wear off on some insects, like wasps, but others, like ants, are very calm. The smallest spiders are colored because their food source is tiny worms, while the other larger spider species are colorless but somewhat poisonous. In Spain.

Another example of a seemingly harmless insect that I captured at home on a windowpane, as shown in the picture. This one has strong wings and can be very nimble, and it has a stinger or double tail to prevent bacteria from entering its intestines.

Could vitamin D be poison from these insects? Perhaps expelling vitamin D could cause gas and antibodies and cause hypertension, which is often relieved as the gas is released.

Vitamins could be poisons, and sometimes if you have certain vitamins, you may endear yourself to animals, but not to others, which is why sometimes you don’t know how an animal might react to you.

It could also be that the body’s consumption of this vitamin D and other vitamins creates photons of light or photons of shadows, which make more insects appear around us. Some vitamins take time for the body to dissolve and can be behind gray hair, but vitamin D, when consumed by the body, creates a low-humidity, brightly lit atmosphere.

Vitamin D, for example, when consumed, creates a gas in cells that can cause excessive hypertension. This is why the body doesn’t consume or dissolve it. However, in the case of hair and gray or white hair, it could also be due to undissolved vitamins or another type of vitamin that acts differently.

In the case of photons at the microscopic level, this could be interpreted in the seabed and its animals. Large fish could travel the planet to get rid of parasites, and in the case of the lamprey in Galicia, it could be the first bacteria thousands of years ago. Smaller fish need to travel the planet to grow larger, and their bacteria too, which could cause climate change.

In the case of a small fish, could it transform into a giant fish? Could it be to travel and leave offspring all over the planet?

Could it be that traveling causes bacteria to grow, resulting in worms and causing colon cancer?

In the case of a forest, this also happens with birds of prey, whose cries send insects to where there are lesser predators, so they can feed on them and free their territory for another threat, as long as there are no fires.

When a bird of prey scares a photon, it reaches the area of the lower birds, and this photon can be depleted and become food for a lower bird. Normally, when a photon is very fast and out of reach, the lower birds make sounds, which can exhaust it, and the insect can be seen.

After indigestion, some insects appear, and they may also dedicate themselves to what they hunt if the other food has upset them because it is poisonous.

Some poisonous animals or insects can ingest poison, but not all, as this would lead to extinction.

Another battle can occur in the mouth. In this video of my saliva sample, which is a sample taken when I gagged, you can see fungi in the summer because I drink water, and you can see their nuclei—food debris that could be from my throat or mouth. Under the microscope, there’s some condensation. Sometimes when the tongue dries out, it makes you feel thirstier. This is more pronounced in children.

Another little battle that can happen, but I think only occasionally, can be in the intestine. In this slideshow, I show some photos of my feces, taken on August 11, 2025, the first at 10x magnification and the second and third at 40x magnification. I looked for bacteria, but didn’t find any, and my conclusion, after using 40x magnification, is that the liver must be working well, and the molecules are mineral remains of antibodies, leaving nothing for the bacteria to eat.

Eating minerals or ingesting dirt causes rapid excretion by the liver because it doesn’t provide any calories, and it may also be that only the calcium is utilized. But it’s not all calcium, so be careful.

It’s also important to know that when the liver eliminates antibodies, it creates bonds of antibodies oxidized by neurotransmitters or fecal molecules, as seen in the images. This can cause caloric intake to be minimal, but not for bacteria. The lower the caloric intake, the smaller the bacteria become or the more they disappear. In aging, if the liver eliminates a lot of caloric intake, the bacteria could become larger and more dangerous.

The mineral composition of the antibody can be the key to calories, since depending on the mineral, cells place gas bonds thanks to neurotransmitters, which are triggered by the gas partner. The more gas bonds, the greater the calories. In some adults, when there are many calories, the heart rate rises less, and when there are fewer calories, it rises more. Depending on age, this can be useful for cycling strategies, since if the heart rate is difficult to raise, physical performance may be lower or the opposite. A poisonous intake could also cause cardiac arrest or the opposite.

In the case of a spider bite, as seen in the images above, the leukocyte produces an antibody that blocks the venom in the bite area. This highly caloric antibody suffocates the cells and takes years to oxidize. Or the antibody is manufactured again until the venom oxidizes. An improvement is sometimes noted with exercise, but worsens with rest, during the day and night. It could be that a spider’s venom is two-component, and the leukocyte only produces an antibody for one component or for both, and needs to produce one for only one and then for the other to slowly oxidize the two-component venom. The tumor could recover faster, but we need to know what would happen with the second component and its active ingredient. One component collects pus because the calories are excessive, and perhaps the infected cells need other proteins with much lower caloric expenditure to reduce the venom, but not to maintain it permanently, because that would be another poisonous effect. Or perhaps the tumor cells and leukocytes are cornering the venom in the tumor with antibodies and expelling it in the form of pus in an inflammation with the concentrated venom of the entire tumor expanded to reduce the tumor area. This could also be the option, dissolving the poison in the area or digesting it, but when dissolving it, in the last calories of the poison, it could produce an explosive gas, which is eliminated by the genes and DNA and that with mineral antibodies and neurotransmitters, would cause the DNA to explode, when the mineral antibody oxidizes and comes into contact with the gas, in the DNA of the cells, of the entire tumor area and it could be difficult to plug the wound, which would be the entire area of ​​the tumor and it would be difficult to reproduce the cells in the area. Perhaps it is the latter and the tumor is caused by the antibody that suffocates the DNA so that it does not dissolve the poison, but with an iron antibody the neurotransmitter and the antibody would not ignite the gas and the explosion of the gas in the DNA would not occur, thus being able to dissolve the poison into calories.

What happens with oxidized antibodies? Could it be that leukocytes, when they make antibodies, release their gases into the blood, from the molecules or carbohydrates, which the cells use to oxidize the antibodies? If they oxidized the antibodies in the cells, with the gases from the carbohydrate or the molecules with which the leukocyte makes the antibody, the liver or the cells would create molecular bonds with those gases, and it would be the same carbohydrate. It wouldn’t eliminate it, but would use it until it oxidized with the gases from the lungs. If it did eliminate it, the bacteria in the intestine could grow or be more harmful to the colon.

I don’t like to travel, but I did have small earthworms, and quite a few. Not so many now, but with warmer weather, they might come back. But they could also be insect larvae or eggs, which is why animals evolved with tails.

Another thing is when a black hole collides with another. It’s possible that it leads to the death of small stars because others grow. It could be because stars don’t generate life and merge.

It could also happen that the death of stars turns their planets into asteroids, which carry life and migrate to another solar system. The loss of neutrons from a star could heat the planets’ cores or their neutrons, resulting in dissolution and mineral fragmentation.

Venus could be a planet that erases traces of life, and the sun probably isn’t enough light for Venus or Mercury.

For example, granite may have more traces of life than a diamond.

It could be that Venus has volcanic eruptions, and the formation of diamonds or precious stones separates the organic remains from the granite, releasing oil that can give rise to bacteria.

Sometimes small photons attract large or gigantic photons due to a new food source in the area, and those photons could lead to the reproduction of species. It’s not that new species are born, but the photon could be due to existing species, but when they reproduce, they could generate new races or kinships, or races that became extinct due to the change in food.

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