Hi, we're here today with Dr. Glenn, you are going to introduce your theory of everything. And today we're breaking that down to the five phases of health, which is a section of the theory. The five phases of health comes out of European biological medicine, there was a man who was a hydrologist. So he was in charge of the water supply for the nation of France. Starting back in the 1930s, it was also an epidemiologist, meaning studying the health of the people. his responsibility was to make sure that everybody's getting healthy water.
And one of the first things that he noticed was that people in different communities where they had different sources of water, different water supplies, were dying of different diseases. So we began studying Measuring the water to see what's the difference in the water? And is that really connected to the types of health issues that people are having. And he indeed found extremely high correlation between the type of water and the types of disease that were happening. Beyond that, he began to develop his measurements to measure the blood in the people to see, you know, how the water which is over 99% of the, the, the compounds the chemicals in the body that the molecules or water molecules. And so to be able to measure that he wanted to have a standard to see what's normal, what's healthy, what's good.
And so, what he did there was to measure young people who were in athletic programs at universities, very healthy, young, active people. And so that that was his standard of healthy blood and from there he could see in what direction, the, the terrain the Mizzou in the body was often how that match the new the terrain of the water that the people were drinking. So you know, in that in that balanced zone that we all want to strive for for optimum health. Of course we need to be. It's nice to be young, but it's certainly important to be physically active as his subjects were the university students and athletic programs and diet Of course, it's important and it would take food and blend it and measure the pH and the what they call the Rh two it's similar to what we refer to as ORP, or oxidation reduction potential in America.
Slightly different measure or P is part of what goes into our h2. Our h2 is if you're familiar with pH, pH is potential hydrogen, which refers to the hydrogen nucleus, the nucleus of the hydrogen atom is a proton It's really measuring protons, we call it potential hydrogen and chemistry. But then for physicists, we know it's measuring protons. And our h2 is measuring the h2 molecule the hydrogen molecule to hydrogen atoms together, which to make that atom you need electrons, not just the two protons, you need two electrons to hold the two protons together. And so it's actually a measure of electrons. The Rh two are the oxidation reduction potential.
Electrons are antioxidants or antioxidants are by definition electron donors. We hear about that aspect of the fullness of the model and in our culture. But an electron is the ultimate antioxidant because it's easy to donate electrons when you are an electron. You don't have to do much. And in fact, when there's electrons in the body, we don't have to use up our nutritional antioxidants. Our herbal and food source antioxidants are vital.
Vitamin antioxidants like vitamin A, and C any. So we can have electrons in our water or not. So water that's rich in electrons is actually rejuvenating and antioxidant and preserves our vitamins and our bioflavonoids. And other things in the diet that have antioxidant function that often will have other functions like vitamins, by definition have have other functions that are essential for life. And if we're using them to stop our body from burning down from oxidizing, then we no longer having for those other functions like vitamin C to repair connective tissue, things like that. So if the the, the path I want to lead you on, to understand this is, is from that place of balance, which I call phase five, the peak of health, five as the top level of health.
One would be the lowest we're going to take a walk today. from five and a half down to level one, and what kinds of see what kinds of illnesses and diseases we tend to produce in our body, what kinds of other things tend to want to live in our body when we're out of balance. So, in phase five, we're basically dealing with life stressors. So of course, you know, even if you're young and athletic and healthy and drinking the right water, we still have issues that we deal with, but it's out here external in our life. So psycho emotional issues, financial issues, those sorts of things, hormonal issues on the internal level. And certainly, you know, young people go through hormonal stresses with maturation.
And then we get to be more stable in that area. As we age. We may have, let's say, allergies, that would be phase four. As we get out of balance enough, our body, our immune system has to begin to work a little extra hard to clean out for us. material things that were sensitive or allergic to things that don't belong in the body that create an irritation. And if those, the the immune system maybe makes an antibody and allergic reaction, combined with the antigen, that's a very large molecule is kind of challenging to filter that out the kidneys, the kidneys are the high pressure filter system for the blood.
And so if that's backing up in our blood, and now we have these immune complexes throughout the body up to here, the immune system has to try to burn them break them down, oxidative Lee, in, in the tissues, where the where they're built up to because they can't get out the kidneys. So allergies that we find the symptoms maybe in the head and sinus, upper respiratory area, don't mean that that's the cause that's the symptom is usually the tail end the effect of an underlying cause. So if you have allergy symptoms, it's not necessarily The only way to deal with that by number one avoiding the allergen. Number two, suppressing the symptom with say medication like anti histamine that kind of pushes it keeps it in keeps the body from eliminating locally keeps the inflammation down from breaking down the irritants locally. And there's some indication that chronically taking antihistamines increases the risk for deeper diseases things like cancer and the sinus areas or in the brain.
Are you saying that allergies are in the phase five, phase four is for so so from phase five, if we have enough stress enough here attend enough toxin that we're exposed to we can eliminate through the normal channels the skin, the liver, the kidneys, then then the immune system is responsible for cleaning it up locally in the tissues and if those are organic, Then we can actually oxidize and break them down in that local tissue. And that's what inflammation is for. The body is not dumb, it actually has a purpose for inflammation, it has a purpose that the immune system produces free radicals that create oxidation, that may also do some have some side effects and do some damage. So ideally, we want to be able to clean out efficiently and not have to do those those local cleanses. But in fact, you know, if we have to clean out a local area when the immune system does that saves the flu, and your body is creating inflammation in the gut to clean out a viral infection and in the intestinal tract, that's actually cleaning out everything that's there, not just the virus is cleaning out all the other toxins that are built up.
And so people who have some fevers once or twice a year get the flu, that's actually a preventive action of the immune system to prevent buildup. of toxins to the point where we get things like cancer and degenerative disease that would be in the low level of health that we're talking about moving toward in this in this story. So in phase four, one of the he was looking at death certificates as a first level of of identifying these patterns so it wasn't looking at allergic reaction so much. But he was seeing that in communities where, where there was a phase for a high level of energy in the water, mineral waters, having a lot of, of alkaline minerals, but also having acid minerals having a lot of electrons but also a lot of protons. There's just a lot of stuff in that water. That's a lot of stuff for the body to process and clean out.
And so there'll be tendency in those populations for more allergies. But the death certificate he found things like more heart attacks happened to be a particular disease that we're susceptible to, when our body just has too much on its plate, too much to do the blood is full of stuff that doesn't belong there. And it actually becomes acidic because of the extra protons, the acids there, and that acidic blood becomes thick and it doesn't perfuse it doesn't go through the vessel so easily it doesn't get oxygen to the heart, and you can have clotting etc. So if we're not able to clean out and then the toxins start to deposit, they sort of crystallized they just like a glass full of dirty water. If you let it sit, it's going to form it's going to kick on to the side, the body will store toxins in areas that have been injured, whether it's trauma or a chemical toxin exposure in a tissue making it that damaged tissue.
Even a surgery when we cut tissue in the form of scar tissue. scar tissue never has as much circulation flowing through it as our our natural healthy tissue. So so all those damages, then lead to phase three where we're storing toxins in the tissues. And that becomes, if you're a cell, the storage is going to be outside the cell at this point. But that means it's between you and your source of supply. How can you abbreviate if there's all this junk between you and the blood vessel?
The capillary bed? How can you eliminate waste if there's all this stuff, you know, a full closet around you, between you and the limp festival to get wastes out that don't fit into the blood vessels? And how can you communicate with the rest of the body? If there's such stuff blocking between the cell and the autonomic nervous system nerve endings, the sympathetic and parasympathetic nerve endings that regulate the function of all our tissues, almost all. So in that case, the cell becomes kind of, it's isolated from the rest of the body. And and and you can actually a cell can actually die.
And when does die and dead matter there? Your rest your body has a hard time leaving on What's happening or how to get in there and clean it out. So now you have dead matter. And what grows on dead matter? fungus? You know, if you're in the forest and you see a dead tree, there's going to be fungus growing on it and that's fungus is the recycler of dead material.
And our body has symbiotic friendly fungi in in its system. In fact, there were a symbiotic organism, we're actually a community already within the human body. Even now, first heard of the mitochondria are bacteria that have completely different genetics. We're not we don't inherit them from our fathers only from our mothers. Totally different organism than the human DNA that we think of in the nucleus is yourself. So so we get fungal conditions, and it tends to be a fairly stable state this sort of a standoff it's, you know, the fungus is doing its thing where we can't do our thing and and it's keeping us alive.
You'll tend to have maybe low body temperature, your metabolism is blocked, the energy is low. And that can go on for a long time. Could you give some examples about how that would show up but what fungus is doing or what diseases? Oh, well, in back in the old days, it would be things like tuberculosis moving through looking at the death certificate says that someone was, you see, oh, why is there tuberculosis in this community over here? Well, they don't have the mineral waters where the pee like where the people were dying of, of heart attacks. But they have waters that that are.
They still have the protons but they're lacking the electrons. They don't have electrons are what we how we get our energy from our food. We electrons form chemical bonds. And in plants that's photosynthesis. light from the sun comes in energizes the electron and that high energy electron is stored between a couple of carbon atoms And then when we eat that as a sugar, for example, goes into the cell and burns, we release that high energy electron and we get lots of energy we get about 36 ATP, battery charges of our cellular batteries out of that one sugar. But in the case of, of fungal activity, that's not happening.
A fungus doesn't have the aerobic oxygen using mitochondria in it. It's fungal, which is actually what we're we are we're actually animals are descended from fungi. It's more like a fungus that has this bacterial helper. But in the case of this phase three terrain where the fungus is growing, our cell is there it still is next to the fungus growing in the extracellular, medium growing, breaking down the dead stuff and, and we're, we're making 10% of our normal energy by fermentation just like the fungus is getting its energy through fermentation. don't have enough oxygen, we don't know if the sugar will come into the cell and it will ferment and turn into lactic acid. We know about lactic acid, you know, in the muscles that can stay in there for years, you have a muscle that's just like, feels hard and it doesn't move well, and it's maybe swell and the cells begin to swell with that lactic acid because it's it's a, it's a sludge, it's a waste that builds up it doesn't move easily, and it's full of protons, it's acidic.
And when it gets into the blood, it makes the blood thick again. So, you know, fungus, like I say, tend to be fairly stable conditions. So we've not usually aware of that that's going on the body. If we take the blood and put it in a microscope, we may still not even see anything unless we know what to look for. There's there's approaches to microscopy where they look at live blood. There's a number of different researchers starting with Dr. Andrew line in Germany.
Guests on Nissan's and others Pretty much independently seeing the same things because the these are lines of research that aren't accepted in conventional journals. So conventional doctors don't know about it. But where they take the blood and watch it for 24 hours after it's taken out of the human body, and there's all kinds of different things that happen even when you can't see anything right away, maybe after an hour or two hours, or maybe after 12 hours or 24 hours, suddenly, there's a fungus growing in there. How did that get there? Now if we saw that fungus in conventional medicine, first of all, we wouldn't look at the blood until we stain it, that means we've killed it. We've put in chemicals that kill the cells and fix it and stain it.
And it makes it easier to see the contrast of some of the structures. But that means we're looking at it at not in a living state and we're not watching the progression of that living state as it deteriorates over time. But then, if we see the fungus that grows out and say, oh, there's a fungal state there begin to recognize the the more subtle forms of a yellow green crystal looking structure very tiny in the blood in lifeblood. There's new cooperation Moses and we can watch it grow into an identifiable form, is there fungi that are actually part of our body's design, the new core race of Moses, in this line of research that found that that's actually what gives us the shape the structure of our blood vessels. There's another fungus that gives us the shape of our neurons. So just like the mitochondria, it gives us our ability to get 90% of our energy from aerobic metabolism.
There's fungi that are symbiotic, they're friendly, they're part of us, but when we're out of balance, they grow into their more advanced forms where they can reproduce, which they'll need to if we're not gonna keep them alive and healthy and balanced. You know, on the outside we might see ringworm or yellow toe nails or you know, thrush or who have Candida and the God. And they these tend not to be things that people die very often, like I say it's a fairly good high level of health and we might not think that we have any problems we take are probably the single clearest thing would be to take your, your temperature. And if it's like, I thought it was supposed to be 98.6, my temperature is low, you're probably in that phase three terrain if you're not otherwise, you know, having illness. From there, if we go to phase two is there's a there's actually