Welcome, Dr. Glenn, I'm excited to hear about today. Thank you. So this is gonna be a follow up to the last one where we talked about how a professor discovered the connection between the biophysics of the water in our body, and the types of diseases and organisms that can grow in those terrain conditions and do so we're going to start with the bottom of the range of health this time starting with phase one, where we have a low energy terrain where viruses can actually attach to the cell membrane because the cell doesn't have enough energy to produce produce a structured water layer that will protect it and keep viruses away. So the way we get out of that low energy terrain is to restore the energy metabolism, which is our Oxygen based metabolism or aerobic metabolism really breaking down primarily sugars but can break down also fats and amino acids.

And get ATP. The energy storage form in the cells, it's like our batteries in the cells is a high energy phosphate on and then adenosine triphosphate molecule, you get 36 of those from every sugar molecule that we break down efficiently. In with with oxygen in the mitochondria. If we're not using oxygen, if we don't have oxygen available to the cell, mitochondria has got nothing to do is kind of doesn't have the oxygen to work with. And we're fermenting about three versus 36 to 10% efficiency in the cytoplasm of the cell just in the solution, the plasma in the cell. So we need oxygen for that.

We need to be able to get food nutrition in there. Not only The The, the, the sugar or carbohydrate carbohydrate that that breaks down the sugar, or amino acid from protein or fats and oils, but also, other other cofactors vitamins and minerals have to get into the cell. So So circulation which requires movement requires opening up the blood vessels, our blood vessels can get narrowed. If we know about cholesterol deposits in the blood vessels can narrow that arterial artery, the small artery opening so the blood can flow through it's easily. So there's there's a number of different aspects to reversing that process. And it really depends on how deeply embedded we are in that like with cancer, obviously, in a cancer cell.

It's in the middle of a tumor, and it's surrounded by abnormal tissue. It's in To grow it, it stimulates the growth of new blood vessels, which are abnormal vessels. And there's a little complexity to what's going on there. But what they found, over the 60 years of working with this method in European biological medicine, is that, at least in the beginning stages of cancer unless it's too far gone, they are able to reverse those changes, even going back to the 1920s Nobel Prize winning research. The prize was given in 1931, to Otto Warburg, for his research showing that you could take cancer cells, get them a higher level of oxygen, and they would be able to revert back to normal cells. So so that's the goal of self healing and accelerating the supporting the process of self healing.

So what our bodies are designed for, is to get the immune system in there to break down the extra proteins that are trapped to seal off the tumor from the rest of the body, then the immune system can get into the tumor itself and bring oxygen. immune cells produce pretty radical forms of oxygen active forms of oxygen that will break down the toxins that are stored, break out the lactic acid that's, that's the result of the inefficient anaerobic metabolism, where instead of breaking down sugar into carbon dioxide, which is a gas and water, which is the 99% of the molecules in our body, obviously a gas can move pretty easily through a fluid like water dissolves and forms carbonic acid. And that's how we normally get out the acids from breaking down our foods. When when that last carbon carbon bond isn't broken, we have lactic acid from the sludge and that is the reason that the cancer cells look so different.

They look bloated, they change shaped or not. No Looking cells, they're just loaded with lactic acid, which holds extra fluid as well, and makes the cell bloated and changes the shape of the function, the pH becomes more acidic. So on alkalize Another key factor in getting out of that terrain, which, you know, when when, when I was first studying, it can get a little bit confusing, because when you look at the science of it, the measurements of the blood which we're measuring, and the venous blood, which is the blood coming back to the heart back to the lungs, to pick up oxygen to pick up nutrients, that blood is actually to alkalyn. But we need more alkalinity to balance the acids that are staying in the cell. So it's the fact that we're building up acid in the cell, which is a waste in the cell.

And we need alkalyn to balance the asset in order to be able to remove it. So the reason that's a problem that In that case, one terrain that the blood is to output is that we don't have enough alkalinity, calcium, magnesium, calcium being the main output buffer in the body our bones are made out of, we start pulling it out of the bones, but meeting the bones to when you talk about acid and alkalyn is lactic acid, the same as acid. It's a form of acid. so weak organic acid, there's hydrochloric acid is a strong non inorganic acid that we make in the stomach to digest help digest proteins. So there's different types of acids. But basically, we need to move them out of the cells, by by function, or cells or asset, they make acid when we use food to make energy.

Acid is like the waste product that's left over. So always, if our cells are functioning, working, they're always going to be making plenty of acid and so we gave the alkalinity in order to balance To maintain that function, otherwise the acids build up and cells bloat and they become degenerative or cancerous, or get viral infection. So when when we're able to move out of that zone, sometimes we'll go through a human crisis which can involve a fever that can even involve bacterial infection, like I mentioned in the other session, about 3000 cases on record of spontaneous remission of cancer, where even metastasized cancers in some cases will spontaneously dissolve and disappear from the body within usually a few days. And it's always with a high fever, high fevers, hundred 203 degrees and higher are characteristic of bacterial infections. And it's not the infection not the bacteria that causes of fever.

People don't necessarily realize that it's actually the immune response. Our body is Designed to create a higher temperature. And one of the things that we've just recently learned about how the energy, how we get our energy level up, and how that produces this layer of protective and energized water that actually stores energy can feed that to our cellular functions, is it when we get a fever, we've known for a long time that that speeds up our own enzyme functions like in the white blood cells, they become much more effective. So it's like, we're running fast, we're speeding up our metabolism making our energy higher by having a fever. Well, this, if you think that a lot of that heat is waste heat, and we do radiate some heat, but when we're radiating it within the body from every cell, it's also being absorbed by this water on the outside of the cell.

And again, this is new information because when we look you know, at our standard chemistry, we see that water doesn't absorb in that in those wavelengths, those frequencies So we would have thought in the past that well, that's just energy is flowing through and dissipating and being released and not being used for much. But these water structured water layers actually absorbing the ultraviolet and the UV where normal water doesn't. It's one of the ways that they've been able to prove that it is a different water structure. So, once we're in phase two, it's a whole different situation, we reactivated the energy production in the mitochondria, which are bacteria that live in cells that we inherit from our mothers. And that's the train where other bacteria might be able to grow and again, that's why they're associated with that shift in the terrain. It's like exchanging petri dishes in the lab.

If you put a you put a virus in that in a petri dish where you have the training a petri dish for growing bacterial cultures, the virus won't grow. You have to have attenuated cells which are low energy cells. So what point if you are in stage one and and in very poor condition for whatever disease you're dealing with? At what stage? Should you be concerned that it's a good favor or a favor to go to the doctor with if I was in phase one terrain, dealing with a condition that happens in phase one that would be in a chronic degenerative disease, maybe a chronic viral syndrome, or cancer. Typically, what you'd see in the history is that that person hasn't had a fever in years.

And so actually any fever would be a sign that their immune system now has enough energy to respond in a manner that Does in order to heal the body, our body, our bodies genetically designed through, you know, hundreds of thousands of years of human genetic history and millions, millions, hundreds of millions of years of life history in order to maintain health so, it's, it's when we can, I believe it's it's smart to support that process, you know, with with these little things of water and rest and you know not to suppress it to not knock that fever back unless it's a risk for other reasons, you know, and you know, for the average person they're gonna want to consult with with their doctor or health practitioner on that. You know, it's it's, it's a judgment call, you know, if you have you have a fever and you suppress it, you run other risks besides the risk of preventing the healing of some either known or maybe unknown condition of the flu.

We can take a vaccine maybe and prevent getting a flu every year. If we're absolutely successful at avoiding the flu. The question is, are we running the risk of increased rates of chronic degenerative disease and cancer. And there's some reasons to think that we might be actually increasing our risk for other diseases, diseases are not entirely independent of each other. If we suppress one, we may get another. So we know that from side effects, you know, medications to the side effects harm, or sometimes the direct toxic effects of a chemical drug that's toxic in itself.

And sometimes the indirect effects where it's, like say, a child with with a skin condition, might use they might use some sort of steroids cream that suppresses the skin condition controls the inflammation there, but we know that steroids also weakened immune system and prevent whatever elimination process This might be happening. And in a later segment, we're going to talk about the layers of the body, how the body grows embryologically and different tissue layers, and how the body's designed to get toxins inheritance out from the inside and more crucial interior layers out to the more superficial layers, like the skin, but a very common thing that they've seen and you're in biological medicine would be suppression of a skin condition. And then the next thing a child comes in with is asthma, which is a deeper, more serious issue. So again, the conditions aren't independent, the body, we've broken down the body by specialty, that doesn't mean that's how the body works or how it's designed to work.

So if we, let's say we've gotten out of that low energy, terrain, and again, that's the hardest one, the worst one the more likes on it's the one we're all afraid of, you know, chronic degenerative disease. From atherosclerosis and those sort of cardiovascular issues, breaking down our basic supply system, to the cells to cancer, arthritis are very common conditions that the kinds of medical treatments that we have are designed, we call them medical management. Usually, it's not really a cure. It's not really a healing process. It's an attempt to control the symptoms, the irritation of that the pain of arthritis or to reduce the fever with a flu. But, again, what we're talking about is a different idea of of health, that our goal is to restore a higher level of health that we may have had in the past or attain that health.

Maybe we never had it for born with with issues. But usually when we're younger, we have a higher level of health and attends to Go down with age and so we can associate that with aging. But it's actually age is time. Time doesn't cause it's a context. Do you think in the different levels of health and predisposition, there are people who really should consider the flu vaccine? That's again, a judgment call my opinion is, if so, I think would be quite rare.

You know, there certainly are people who are infirm who are at high risk of having complications with with a with a flu. There's also people that have complications with vaccines. It's not it's not, you know, nothing is completely safe in life. But if you look back at historically, when when flu was one of the big killers, you know, back in the 18, late 1800s, for example, when there were some we still have a system Have medicine in the United States that have a freedom of philosophy not not a single type in which they do have in Germany, they do have in Japan, other countries these days, but the United States, for the past almost 200 years has been dominated by one single model, gala Catholic School of Medicine, which uses patented drugs and surgery. Feel like back in the late 1800s. There's records that show that the homeopathic hospitals and then at that time, most of the hospitals in the United States were homeopathic hospitals, they actually had a much higher survival rate in the big flu epidemics than the allopathic schools did.

Now. We have different drugs and allow puffy today than we did back then. But again, there's there's some interesting clues that that for example, homeopathy, which is still today the leading form of medicine in the world and nothing in terms of numbers of people created is a missing piece to The puzzle of how do we stimulate support the body's healing process versus strictly using drugs that require licensing because of their risk and their toxicity, that tend to work by blocking pathways in the body's functional systems. But it doesn't have extra systems just like in surgery, it doesn't have some we're not born with extra organs very often. And yet, unfortunately, there's still this idea of preventive surgery, you know, even breast surgery sometimes these days, but the common thing would be removing the appendix. So because we're in there anyway, and you could have a problem with the appendix.

Thing as the appendix is not a vestigial organ as it was thought, you know, maybe 50 years ago, we now know that it's part of the immune system. It's a tissue. It's like a lint filter for the colon area and produces compounds that it secretes into the large intestine that help regulate the bacterial balance. So it keeps harmful bacteria, colon bacteria from getting back up into the small intestine. It's actually a very important organ for our health. Just like the tonsils, like the gallbladder is another one that can get taken out and we can survive without these things.

But they reduce our flexibility and reduce our adaptability, they reduce our, the range of conditions that we can function with and the quality of life. So in phase two