To put in context what "we have a cure for cancer" means:
In 1993 Prof. Dr. Somlyai has discovered that cancer cells cannot tolerate low-deuterium environments (as low as 100 ppm). There is solid science behind. He and his workmate, Prof. Dr. Boros even buy the publication fee for their own scientific papers to make them available to the general public because they are open to recieve scientific criticism. The idea of deuterium depletion manifested in a therapy using deuterium depleted water, which is drank regularly or injected directly into tumors. It has been approved for animals and being used in therapy since 15 years with great success. The human experiments have succeeded to demonstrate that mentioned water significantly improves acute survival rate, and survival rate is significantly better after 1 year of treatment.
The authorities have declined to approve its use in humans because there were no significant improvement in survival rate after 3 years of treatment. So "we dont have a cure for cancer".
Life, since eucaryotic cells have appeared, thrive to deplete deuterium levels inside mitochondria because deuterium kills atpase enzyme, which produces the energy for the whole body. One method of doing this is to keep procaryote cells and fungi in the gut, which in turn tend to concentrate deuterium, which is required for their genes to multiply. Feces is therefore richer in deuterium, getting the body levels lower.
Ocean deuterium level is 155. When the water evaporizes, the steam has 2.5% - 4% less deuterium as the water. The cloud then moves around, and rains the deuterium-richer water first, leaving the deuterium depleted rain for the end. When clouds form around the equator, and they quickly fall in the form of summer thunderstorms, they tend to be higher in deuterium. But if the clouds form, move around through the poles, then back to 45 degrees latitude, they can reach the 130 ppm, which is tremenduosly good for mitochondria. We know that cancer is less prevalent as we go closer to poles.
The consequence of mitochondria having low deuterium levels is that they produce citric acid with low deuterium content, which later turns into fat. That's why lard has 118 ppm deuterium in it, which generally means that eating a ketogenic diet of such fats (and drinking as little water as needed) is super efficient in depleting deuterium in the body. It takes 2-3 months to reach the equilibrium of deuterium levels after a change in diet/lifestyle. The Wartburg-effect might be a consequence of this.
ppm is parts per million, which labels how many deuterium isotopes are present for 1000000 hydrogen atoms. So oceans have roughly one deuterium-containing water molecule every 6600 water molecules.
The above is basically what I understood researching the topic, please google Somlyai and Boros for more.
The website looks like fairly typical junk science. In general, deuterium is chemically identical to normal hydrogen, so you're going to have to provide strong evidence to back up the claims that you're making.
One deuterium ion isotope (proton+neutron) is twice as heavy as the hydrogen ion isotope (proton).
If you are claiming they are identical chemically, I think it's you who should come up with Strong Evidence.
The common sense dictates that if a particule is twice as heavy, it COULD have different properties, which can be empirically tested, in fact WAS tested. (see links above)
I'm happy to agree with all of your claims. (except the arbitrary label you applied: "junk")
Deuterium depleted water is produced by distilling water multiple times, which is extremely energy heavy operation. That's why a bottle of 1.5L 105ppm DDwater costs around $4. It is still extremely cheap if you compare to the cost of other oncology treatments.
There are minimal differences in the chemical behaviour. The very first scientific paper in the publication list shows the effects of that minimal difference. https://journals.sagepub.com/doi/pdf/10.1177/107327482199965... The results of deuterium depletion is what you see on Page 6: Decreased proliferation of cancer cells. In vitro studies were followed by animal experiments, which I mentioned above.
The human experiments were conducted on 22 persons. 2 of DDW consumers died, 9 in the placebo group died. This, as I see, doesn't rule out the possibility of an extremely efficient drug for cancer.
What Boros said in an interview (won't link it since it's in Hungarian) is that there's an extra fee to be paid for the authors to be able to put the papers on their own homepage as open access articles.
I don't know more details about it, but surely he can answer your question or you can find the answer in sciencedirect or whatever. I'm not familiar with the science bureaucracy machine, sorry.
There's journals that are specifically open access and there's a fee for publishing in them. Some of them are excellent. There are also publications that accept just about any paper as long as the author pays to have it published. I'm trying to figure out which kind they're publishing in. I'll see what I can figure out.
In 1993 Prof. Dr. Somlyai has discovered that cancer cells cannot tolerate low-deuterium environments (as low as 100 ppm). There is solid science behind. He and his workmate, Prof. Dr. Boros even buy the publication fee for their own scientific papers to make them available to the general public because they are open to recieve scientific criticism. The idea of deuterium depletion manifested in a therapy using deuterium depleted water, which is drank regularly or injected directly into tumors. It has been approved for animals and being used in therapy since 15 years with great success. The human experiments have succeeded to demonstrate that mentioned water significantly improves acute survival rate, and survival rate is significantly better after 1 year of treatment.
The authorities have declined to approve its use in humans because there were no significant improvement in survival rate after 3 years of treatment. So "we dont have a cure for cancer".
Life, since eucaryotic cells have appeared, thrive to deplete deuterium levels inside mitochondria because deuterium kills atpase enzyme, which produces the energy for the whole body. One method of doing this is to keep procaryote cells and fungi in the gut, which in turn tend to concentrate deuterium, which is required for their genes to multiply. Feces is therefore richer in deuterium, getting the body levels lower.
Ocean deuterium level is 155. When the water evaporizes, the steam has 2.5% - 4% less deuterium as the water. The cloud then moves around, and rains the deuterium-richer water first, leaving the deuterium depleted rain for the end. When clouds form around the equator, and they quickly fall in the form of summer thunderstorms, they tend to be higher in deuterium. But if the clouds form, move around through the poles, then back to 45 degrees latitude, they can reach the 130 ppm, which is tremenduosly good for mitochondria. We know that cancer is less prevalent as we go closer to poles.
The consequence of mitochondria having low deuterium levels is that they produce citric acid with low deuterium content, which later turns into fat. That's why lard has 118 ppm deuterium in it, which generally means that eating a ketogenic diet of such fats (and drinking as little water as needed) is super efficient in depleting deuterium in the body. It takes 2-3 months to reach the equilibrium of deuterium levels after a change in diet/lifestyle. The Wartburg-effect might be a consequence of this.
ppm is parts per million, which labels how many deuterium isotopes are present for 1000000 hydrogen atoms. So oceans have roughly one deuterium-containing water molecule every 6600 water molecules.
The above is basically what I understood researching the topic, please google Somlyai and Boros for more.