This One Element Could Be Fueling Tumor Growth - Dr. Petra Davelaar

[Music] There's a whole other way that I've learned that dutyium plays a role. And if you let me explain this part which was it's fascinating. The last year um I've been working with a group of scientists um that includes Barry Ninham. He's an Australian uh scientist who um spent years also in the US but he's there and he has published a series of paper just recently the fourth one um that are some would say seinal papers that um introduces to the world of nanobubbles and um this is utterly fascinating because it turns out that maybe for the last 3 400 years I think it is that we have basically ignored omitted the fact that dissolved gas plays a tremendous role in our body and all the research all the biochemistry the colloid surface chemistry physical chemistry they have all ignored it none of them have included it in their um considerations and if you um don't take dissolved gas in consideration all the reactions change everything's different So this is a whole other piece of um why the way we currently p practice medicine isn't is just very on very shaky ground and is missing fundamental parts. So it turns out that we breathe very differently than than we do. I'll start there because that that's really important to understand. So, we've been told, you know, we we have in our atmosphere approximately 80% nitrogen and 20% of oxygen. And so, we breathe in magically in our lungs um in our little alvoli, the red blood cells can just pick up the oxygen and off they go. Well, that's not what happens at all. Um it turns out that we actually breathe in um the combination of both the nitrogen and the oxygen gas. And when that enters your alvoli, there is a um 3D kind of honeycomb structure that then forms these teeny little nanobubbles and that's those are made up of both nitrogen oxygen gas that then perfuses the vascule and um in the capillaries is where the oxygen not all of the oxygen but some of the oxygen partitions into red blood cells. That's where the exchange happens. So this is this is fascinating. And it turns out that all of our um vasculature and all of our cells, all of our tissues, everything has a layer that is called the um endothelial surface layer glycoalix complex. It's a mouthful but basically um if you think of a cell and and we we have given all sorts of wonderful properties to the cellular membrane that really if you think about it are impossible that couldn't couldn't all be managed by that teeny little structure. So um scale-wise if you think of it a cellular membrane is three nanometers and then you have a layer of the glycoalix which is um 50 nanometers. And this layer is super interesting. It's a um a interwoven um kind of continuous bicontinuous network of water tubules and this actually directs all of the cellular traffic in and out of the cell and it's also a neural network and then from there is another layer that's 20 times that and um that is made up of these sulfated polymers. So you can think of that as like grass from you know ocean grass and that's highly sulfated and um that then is populated with the nanobubbles and um ultimately the integrity and the structure of this layer determines the exclusion zone that happens above this nanobubble layer. And if this this layer um this of the glycoalix part if that has a lot of dutyium in it um the uh actual um structure of it changes and the ability of water of of any kind of compound to move through it or traffic to happen changes. So that's fascinating obviously. So these these water tubules um uh can change depending on the structure uh the the um ion concentration or for instance too much glucose or too little insulin the the curvature of the tubules changes and then the connectivity and the um conductivity changes. So um then that the entire mechanism kind of shifts. So you know through metabolism we produce constantly CO2 bubbles. So that's the other part of the bubbles that's present and the CO2 is is really important in um eliminating uh infections of any sorts. So that's uh it's just yeah the whole world opens up. I just created a page on my website that um seeks to explain it and summarize it in a way. It's difficult because it's a 50-page paper, this last one that they place they put out, but it's it's really really fundamental and um another reason why we need to do so much more research and understanding of how it all happens. Yeah. Hey everyone, really happy to announce a new sponsor for the show and for everybody down in Australia. It's Stockman Steaks, who are delivering highquality grass-fed and finished pasture-raised beef and other meats, flash frozen, and vacuum sealed to your door. Something I've been enjoying a lot of myself recently as well. They also have a great range of specialty items such as highfat keto mints and carnivore beef and organs mints with liver, kidneys, and beef heart as well. So, use code chaffy today for a free order of beef mints or another specialty gift along with your order at stockmanstakess.com.au and I'll see you over there. Thanks, guys. Yeah. Does that make any sense? Does. Yeah. Well, the thing is, I mean, you know, there was uh this is always explained to people, you know, air goes in your lungs and then something happens and there's gas transfer and it's just, you know, using very broad general terms. That's right. describe this but you know no one's saying exactly how that mechanism works. We have a lot of mechanisms for different sorts of things. We talk about the you know the inflammatory cycle and you know things going through and have this laminer flow but then something happens and gets more congested then they actually have to become sticky and they're hit the wall and we have all these little steps and mechanisms and they explain those out but then they just say yeah there's gas transfer you know something happens and science happens and then all of a sudden you have you have oxygen in your red blood cells. Obviously there's more to that and you know understanding how that exactly works and you can see these other parts of that and that's very interesting. I I hadn't heard that that you know you have a higher dutium level in those layers then that's going to interrupt gas transfer but yeah and if there's none that's another piece if there's none the layer will collapse so that's no good either which is why this whole piece about I think duterium regulation is key not not just depletion which is what you you know hear yeah it's it's too much you don't want to do that either we need it and it has many other functions and um it's also uh believed to um play a role in the bloodstream as a source for UV light. So this is a whole other piece. Um once you start diving into that um how uh many of our proteins and hormones in our bodies need to be the hormones need to be um uh they have an absorption um range in in the UV light spectra which is amazing. Um, and back in 2019 I um I'm in D I'm Dutch. So Rulan F um has written some amazing books on light shaping life and I actually went and visited him in in his lab and we had a conversation about it and I tried to you know it's always a great um challenge for me to get uh scientists to kind of look outside of their box and add some other pieces to it and I wanted to talk to him about dutyium and he did not know about it. Um but it was fascinating. Anyway, his books are incredible and and that will tell you that our bodies produce you know extreme lowle um UV light and that actually activates many many processes and in fact it it controls mitosis. So um uh yeah that's just a whole other piece how dutarium plays in in in our bodies. So duterium itself emits a bit of light or some sort of process emits there is a process I don't know of the exact details um and the truth is there is no researcher that has you know described this and published this and I asked um Rulan about it sorry I'm saying his name in Dutch but it's Ruland I is what people call it um yeah um but he he didn't know about he does not know where it comes from. But if you if you look at a dutium lamp, I don't know if you ever heard of that, but that that creates you can look it up, but um that that skips off UV light. Um it's it's fascinating. And so it it is um under pressure. That's what how it happens. So it it is assumed that that also takes place in our bloodstream and and um is uh you know it it's important for all the amino ac the um uh the different amino acids um to activate them. So yeah, it's there's a lot there's so much. Yeah, I mean I I I remember seeing a video uh I came across it recently as well actually, but when a sperm meets an egg and you know different sperms will not be able to get purchased and then one does there there's a flash of light at the moment of conception which is really interesting but it's an actual actual measurable flash of light. You can see it on on video on powerful microscopy and and it it sort of goes around from one side to the other just like that. Just Yeah. Yeah. Yeah. And so obviously so it is happening. We do know that and and I'm listening to to Jack Cruz and and yourself, you know, it it doesn't surprise me that the body is emitting light in other ways. And I'm it's not going to do that for no reason. You know, there's probably I'm sure there's this this whole quantum um you know, side of our body that uh that that plays a part in. That's right. We truly are electric. We are Yeah. And if those are are interfered with with all of the currents, you know, world that we live in with these magnetic frequencies and the blue light and uh yeah, it's on and on. Um this affects all of our functioning. So, this is a whole other way. um to think about it and and why we need to address these pieces so urgently and so importantly. Um you know I really talk about my clients I I try to explain that you know the environment that you lived in in which that allowed you to create this cancer let's say or whatever else is the issue. You must change that if you want lasting success in reversing what's happening. And that's um likely the hardest part, you know, for people to do these pieces, but it I think it's really crucial and um yeah, that's what we all work on. Yeah. So So how bad exactly is blue light? Artificial blue light obviously. So it it I think it's truly detrimental for us and um it forces us to truly change. So this is that piece about palm seed that um basically there is something called a clip enzyme and that gets generated um activated through blue light and that's um causes us to increase our glucose and insulin levels and we don't have to even eat high glucose foods for that to happen. So you can have insulin resistance um just by blue light. And I think this is the data that we're also really seeing from India where we have the greatest population that is skinny um that has uh insulin resistance and diabetes. That's the largest it's their greatest um health challenge. And so um you know we have sensors everywhere in our skin. Um, and uh, it's there's so many pieces to it. I'm not even clear exactly on how best to summarize that for you, but the it it's just devastating. It's devastating for our eyes, for our skin. You know, I have my yellow filters on here. Um, I'm working only on um an Ethernet cable so that I don't expose myself even further, even though there's enough coming from this anyway. You know, I I've tested it. Um, but this is at least the least damaging that I can can be. But ideally, we should all be sitting outside or have plexiglass in our windows so that we at least allow for the red light to come through because regular glass does not allow for that. So, um, yeah, we have to really change the way our homes are built, how we do our days. Um, and that's difficult because most of us are behind computers on a daily basis. Yeah. Yeah. Do do we understand the mechanism behind blue light causing insulin resistance and elevating the glucose? Yeah. This is through that palm sea gene and um so the palm sea has to be activated by UV light by UVA light specifically and once that is uh activated you produce the different forms of um melano stimulating hormone the alpha the beta the gamma and that then gives rise to melanin and melanin is ultimately the um most important semiconductor in our body that can absorb all the light spectra and then um use that to um to further um charge separate water and increase um our own metabolic water production and then of course release electron electrons again and those electrons will add to the net negative charge of the cell. So this is an an amazing um and and you know Dr. Cruz can explain this in much greater detail but it used to be like all other animals they have their melanin either in their feathers or in their skin. Um but we have all internalized it and it's in inside of our brain it's inside of our cookia it's inside of the ovaries I think is a really high amount of melanin but all of this is is um extremely important for functioning but if we are not getting UVA light then we don't have that activation then we don't have the melon and then everything starts breaking down and that's ultimately the the part of it hey guys just want to take a second to thank our sponsor carnivore are. I don't promote many products because honestly all you need to be healthy is to just eat meat. For those times that you're out hiking, road tripping, or stuck at work and you want nutritious snack that is just meat, fat, and salt if you want it, the Carnivore Bar is a great option. So, I like this product not because it's just pure meat, but also because I want the carnivore market to thrive as well. And the more we support meat only products, the more meatonly products there will be available in the mainstream. So, if this sounds like something you'd like to get behind, check it out using my discount code, Anthony, to get 10% off, which also applies to subscriptions, giving you 25% off total. All right, thanks, guys. Yeah, well, um, yeah, I I I really love the light stuff, and I I think that I think that it all comes back to just living in a in a biologically appropriate way for our species. You know, we're going away from that. Obviously, you know, I come at this from a from a nutrition standpoint because it's a huge issue, but light is is a massive issue as well because we're in no way in a in a natural light environment either. And um and I I'm I'm very fascinated by the work that's coming out in that field. I have a number of colleagues that are just they're just really blown away by this as well. They just sort of shifted their whole practice. Yes, they do ketogenic carnivore and just all that sort of stuff, but like probably the biggest thing is they're just like you need to be outside. You need to get rid of these lights and all that sort of stuff. That's one of the major things that they do. So, it's it's very very interesting to me. I mean, I think we have to because it's just not enough. It's not enough changing the food. We know that. And, you know, some would say light trumps food. It's not it's not going to do it for you just by that. It's a huge step and I know it will make a difference but it won't solve all your problems by no means. You know that that's really what we have to recognize that we have to go there. Yeah. I guess we can think about it as as you're getting fed in different directions in different means. You know food is one source of nutrition but you you're getting other sorts of inputs from the light environment. And so you need that as a source of nutrition as well. And and it's it's never a good idea to eat poison. And that's why we try not to eat poison and change our diet, but it's also not a good idea to get exposed. You know, you could get get light poisoning as well. And you know, one of the one of the healthier people that I've met um is Lady Maggie who um you know, she's 80 8 now 84 year old turning 84 year old rancher. She's been carnivore her whole life. She's been crazy healthy and she's still at 84, you know, working 16-hour days, sometimes 36 hours straight if she has to during CVing and all that sort of stuff. She's just up all the time and doing two-hour checks overnight, all that sort of stuff. And she's doing this all herself. It's not like she's just, you know, there with a big white hat just watching all her field hands, you know, do their work. She's doing it. And that is probably a huge part of that. A, she's physically active and she's doing a lot of stuff with her body. So, her body staying strong and healthy, but also she's outside. She's outside. That's exactly right. Yeah, I know. I listen to that podcast. It's fascinating. She's She's unbelievable. She's a powerhouse at that age doing what she's doing, as you know. That's very rare. Um, but yeah, she's outside. That's the key. And she's also into cold, you know, she's in cold as well. And that's another part of it. Cold um is extremely useful if you don't have the light. At least you have that part that will then um do the whole cold thermogenesis piece that is so crucial for our mitochondria as well. These are the two ways for us to do it. Light and cold. Yeah. Is you know in the in the winter months like is it enough to people just to get outside and get the light in in their eyes or does it do you need it on your skin as well or how does that work? Well, there's no there's not much UV light and this all depends on of course where you are on what latitude. Um but yeah, I think if you get it in your eyes most importantly is is absolutely key. Um but if you can do the colds and as well and the sunshine that would be even better. So submerging yourself in cold water is really a whole other level. And then and then you mentioned how how actual you know silicon glass will block out red um red red light. What's what's the importance of the red light? So infrared light or the different um spectra of red light are um there's there have been great podcasts on that as well. Max um Galhane did some beautiful ones. Um and basically it um that we have in our mitochondria the different complexes and on complex 4 um it is fueled by infrared light and so you upregulate even the production of your metabolic water at a higher rate doing so. And um infrared light in that sense is beautiful and healing. and my clients really love it. In some cases, it helps you with your, you know, different hormonals with um with hair growth, for pain, all of it. It's it's a very useful um light source to use. Yeah. So, even as an artificial, I mean, not getting it directly from the obviously you're getting red light from the sun, out being out in the sun, but you mean like like getting red light lamps, is that beneficial? Yeah. Yeah. Yeah. Absolutely. um I think it's useful to um use for treatment but also in the evenings um when we are still on on computers or we want to light our space to definitely balance the spectra and I will have some infrared light on as well um to complement that uh yeah to be kind to our skin and not you know it's it's difficult um in most places you can't even buy the incandescent light bulbs anymore but um that would be a preferred Um there is an executive order I think it was signed that you can choose again to buy the light bulb of your choice but um made that illegal like why you know they did insane um but I think um there are ways of getting them and so that would be another approach to at least make sure that you're not under LED um or um compact fluorescent light bulbs which they just destroy your melatonin. Um but uh yeah, I I think infrared light is very useful and I use it as a source in the evenings for for lighting my environment. I do wonder like why they would ever make um incandescent bulbs illegal and you have to get this blue light spectrum sort of LED, you know, in the whole sort of uh you when you see when you see enough of this stuff, you you start becoming very cynical. are seeing people doing something on purpose in order to to manipulate people in some certain way. Yeah. And and they're doing it in one area, you know, they're often doing it in other areas. And and I know Dr. Cruz talks about what was it the MK Ultra project that the CIA did looking at stimulating certain parts of the brain. you can make primates very docil and he knows about this because he was in the neurosurgery program at Tulain that was doing that putting the pro probes in there and then they found that like they as in Jack and then the researchers found that giving certain frequencies of blue light stimulating the same parts of the brain made them very docil and that happens to be the exact spectrum of blue light that h that comes in all our LEDs and on our computers and on our TVs and on our phones y and so that seems purposeful and then when they're, you know, making it illegal to get the like it's allowed, you're allowed to have or you were allowed to have them and but you just weren't allowed to sell them, so they ran out and um, you know, and now you have to get these lights. They're toxic in this way and make people do and and and controllable in lab experiments, you know, that just I don't know that just it just uh, you know, sounds sounds alarms in my head. And I think there's a great variety in what substances people can use. And you know, I agree with with Gabbor that we should not be using highdose vitamin C or or synthetic glutathione for that matter at all. I think regardless I don't think those are great period on duty nucle water or