Non-Toxic Cancer Treatment
This article does NOT constitute medical advice.
Consult with your physician before making any changes to your medical plan.
Consult with your physician before making any changes to your medical plan.
Let us first define cancer. Cancer is uncontrolled cell growth. The next obvious question should be "why does the cell grow uncontrollably?" To answer this we must understand how mitochondria evolved. Billions of years ago an archaea engulfed a prokaryotic cell and the two evolved symbiotically. Eventually that prokaryotic cell became our mitochondria, and the evolution of that symbiosis resulted in the eukaryotic cell that now comprises our human body. An average human cell contains about 500 mitochondria, but some cells, like neurons of the substantia nigra, contain up to two million mitochondria per cell. We generally know mitochondria as the powerhouse of the cell, but they do much more than that. They are the control center of the cell. They make deuterium depleted water. They make carbon dioxide. They make ultra violet light. They make heat. They control REDOX balance. They make reactive oxygen species. They regulate calcium in the cytosol. They control apoptosis. Most people think that the nucleus controls the cell, but it is actually the mitochondria that controls the cell. What we need to understand is that the cells that our mitochondria evolved from used fermentation as their means to make ATP, and that programming still remains in our cells and mitochondria. Fermentation means that ATP is made from the energy source (usually glucose and/or glutamine) without using oxygen. When the ancient cells, from which our mitochondria evolved, employed fermentation to make energy they would literally consume more and more and more glucose and glutamine until all of it was gone. They had no mechanism to stop consuming, growing and multiplying. They devoured energy. This is uncontrolled cell growth, and this is what happens in our mitochondria and cells when we get cancer. The mitochondria revert back to the ancient pathways of fermentation (that remain in our mitochondria from ancient times) when oxidative phosphorylation is not working. Normally in the human body the mitochondria control their growth, and they even kill the cell if growth becomes unregulated. But when the mitochondria become damaged in a way that they can no longer use oxidative phosphorylation (aerobic respiration) to make ATP then they resort to the ancient pathways of fermentation and consume energy until there is nothing left. This results in death of the human from the disease we call cancer. A healthy mitochondria can control its growth and multiplication, and healthy mitochondria will kill the cell if that growth and multiplication becomes unregulated, but a cancerous cell cannot control itself.
The next obvious questions should be "how do mitochondria become damaged?" They get damaged by chronic energy inefficiency within the mitochondria that results in poor repair within the mitochondria and cell. If the mitochondria and cell do not have adequate energy for repair then mutations cannot be fixed, proteins cannot be made properly or adequately, receptors fail, redox potential falls, the electron transport chain becomes inefficient, and sickness occurs. Energy inefficiency is the result of chronic environmental fails like poor food choices, environmental toxins, carcinogens, microplastics, exposure to electromagnetic frequency, exposure to artificial light, lack of proper sunlight, lack of proper minerals like copper, excessive minerals like iron, lack of proper vitamins like retinol, excessive vitamin supplements like vitamin D and ascorbic acid (which is not the same as whole-food vitamin C), excessive deuterium, excessive carbohydrate consumption, and many more. All of the things that were discussed in the article Healing Chronic Disease come into play. A cancer will not ensue immediately, but rather it takes chronic exposure to these things resulting in chronic hypoxia at the mitochondria level over time.
Cancer is not a genetic disease. Gene mutations come as a result of the mitochondria damage, not as the cause of mitochondria damage. How do we know this? Modern scientists have the ability to do experiments within the cell. Scientists can take a cancerous cell that has driver gene mutations and damaged mitochondria, and when they replace the damaged mitochondria with healthy mitochondria the uncontrolled cell growth goes away. In other words, the cancer goes away when healthy mitochondria are put into a cell with driver gene mutations in the nucleus. Scientists can take cells with no gene mutations and healthy mitochondria, and when they introduce damaged mitochondria into the cell the cell then acquires uncontrolled cell growth. In other words, an otherwise healthy cell gets cancer when damaged mitochondria replace healthy mitochondria. These experiments can be repeated by any scientist anywhere in the world, and the result is always the same. Much of our knowledge about cancer goes back to 1931 Nobel Prize winner Otto Warburg. He was actually nominated for the Nobel Prize 52 times, but Warburg lived under Adolf Hitler's rule and was only allowed to receive the award once. Warburg was so important to human civilization that when he was serving as an officer in the German army during WWI, Albert Einstein went to the German army and asked that Warburg be released. His importance to humanity was that great. The concept of cancerous cells and mitochondria switching from oxidative phosphorylation to anaerobic respiration has become known as the Warburg effect.
Cancer is not a genetic disease. Gene mutations come as a result of the mitochondria damage, not as the cause of mitochondria damage. How do we know this? Modern scientists have the ability to do experiments within the cell. Scientists can take a cancerous cell that has driver gene mutations and damaged mitochondria, and when they replace the damaged mitochondria with healthy mitochondria the uncontrolled cell growth goes away. In other words, the cancer goes away when healthy mitochondria are put into a cell with driver gene mutations in the nucleus. Scientists can take cells with no gene mutations and healthy mitochondria, and when they introduce damaged mitochondria into the cell the cell then acquires uncontrolled cell growth. In other words, an otherwise healthy cell gets cancer when damaged mitochondria replace healthy mitochondria. These experiments can be repeated by any scientist anywhere in the world, and the result is always the same. Much of our knowledge about cancer goes back to 1931 Nobel Prize winner Otto Warburg. He was actually nominated for the Nobel Prize 52 times, but Warburg lived under Adolf Hitler's rule and was only allowed to receive the award once. Warburg was so important to human civilization that when he was serving as an officer in the German army during WWI, Albert Einstein went to the German army and asked that Warburg be released. His importance to humanity was that great. The concept of cancerous cells and mitochondria switching from oxidative phosphorylation to anaerobic respiration has become known as the Warburg effect.
So, how can we apply these proven and reproduceable findings to treating cancer? It's actually pretty simple. We deprive cancer cells of the only fuels that they can survive on....glucose and glutamine. This must be done in a way that allows the healthy cells of the body to continue to receive the fuel they need. How is this done? Healthy cells can use ketones to make ATP in addition to glucose. Cancerous cells cannot use ketones. So, if we limit glucose and total calories in the body then we produce ketones and lower glucose. Our healthy cells do very well on the ketones, while at the same time we reduce the glucose that cancer cells can survive on. Limiting glucose is mainly accomplished with a ketogenic diet where the patient eats mostly high fat and moderate protein. No carbohydrate consumption. Some glucose will remain in the blood, but the brain and other tissue will out-compete the cancer cells for that small amount of glucose. Stress, caffeine, and adrenaline can cause the liver to make glucose, so the patient must be careful to prevent this gluconeogenesis. Meditation is often prescribed to calm adrenal glands. Sometimes a drug like insulin is needed to further reduce glucose. By lowering calories we will be lowering glucose and helping to shrink cancerous tumors. The patient will do well to get electrons from the Earth through grounding instead of through food, while at the same time getting red light from the sun to drive ATP synthesis in healthy cells while calories are lowered as described in the article Light, Electrons, and Water as Nutrition for Quantum Health. In this way the patient is making ATP from electrons and red light instead of from food, so glucose can be lowered. Red light of 670nm wavelength alone is shown to reduce glucose by 27.7% with just 15 minutes of exposure according to the lab and studies of Glen Jeffery. The patient must take great ownership in the process by measuring blood glucose and blood ketones several times per day. These numbers are used to calculate a glucose to ketone relationship called GKI (Glucose Ketone Index). You can use a device called KetoMojo to facilitate these daily measurements. Glutamine can only be lowered in the body with a prescription drug like 6-Diazo-5-oxo-L-norleucine (DON) or a similar glutamine inhibitor. But this type of drug must be dosed in pulses because a human cannot survive long periods of time with low glutamine levels in the body as glutamine is necessary for many important functions. So the patient is given a dose or doses of DON, and then a break period is required. Repeat. This deprives the cancer cells of glutamine as a fuel for that pulsed period of time which is enough to begin shrinking the tumor. These approaches can be combined with the centralized treatments of chemotherapy, radiation, and surgery, or these approaches can be done on their own.
Additionally, mitochondrial health is largely impacted by ultra-violet light. In fact, the necessity of ultra-violet light is so important that in cold winter months the mitochondria actually make ultra-violet light themselves. This was shown as early as 1923 by Alexander Gurwitsch in his onion experiment and has since been revisited many times. Ultra-violet light is required to make melanin and also to power Complex 1 of the electron transport chain. What does this mean for a cancer patient? It means you need to get outside in the sun and expose your cancerous body part to ultra-violet light. While you're at it you will be getting some red light as well. Be sure to never miss a sunrise for the rest of your life. You need that morning red light for mitochondria health as described above. And the infrared light from the sun will structure water around every living tissue in your body for proper signaling. This ties in to the work of scientist Gabor Somlyai who spent his career studying the beneficial effects of drinking deuterium depleted water for shrinking tumors. You will recall from my article Light, Electrons, and Water for Quantum Health that our mitochondria make deuterium depleted water. When your mitochondria are damaged, however, it can be a great benefit to drink this essential water so that less deuterium is available to impair mitochondrial function. Study the work of Gabor Somlyai very carefully.
Additionally, mitochondrial health is largely impacted by ultra-violet light. In fact, the necessity of ultra-violet light is so important that in cold winter months the mitochondria actually make ultra-violet light themselves. This was shown as early as 1923 by Alexander Gurwitsch in his onion experiment and has since been revisited many times. Ultra-violet light is required to make melanin and also to power Complex 1 of the electron transport chain. What does this mean for a cancer patient? It means you need to get outside in the sun and expose your cancerous body part to ultra-violet light. While you're at it you will be getting some red light as well. Be sure to never miss a sunrise for the rest of your life. You need that morning red light for mitochondria health as described above. And the infrared light from the sun will structure water around every living tissue in your body for proper signaling. This ties in to the work of scientist Gabor Somlyai who spent his career studying the beneficial effects of drinking deuterium depleted water for shrinking tumors. You will recall from my article Light, Electrons, and Water for Quantum Health that our mitochondria make deuterium depleted water. When your mitochondria are damaged, however, it can be a great benefit to drink this essential water so that less deuterium is available to impair mitochondrial function. Study the work of Gabor Somlyai very carefully.
This type of treatment is best performed with a team of 5 members.
1.) The Patient: Discipline and study is required for the patient to have success.
2.) Centralized Oncologist: In order to get your health insurance to pay for diagnostics like PET scans and blood work you will need a centralized oncologist. You will need to tell them that you intend to eventually use chemotherapy, radiation, and surgery so that they will continue to see you. In essence, you have to lead them on regardless of whether or not you actually intend to use chemotherapy, radiation, and surgery.
3.) Functional Medicine Oncologist: This will give you a second opinion that will be more aligned with non-toxic cancer treatment.
4.) Cancer Nutritionist: A nutrition specialist can make a huge difference. Nutritionists like Mary Ruddick, Katie Deming, or Judy Cho can give specific recommendations for your cancer situation.
5.) Research Specialist: A doctor cannot give you advice on information that they do not know or about research that is outside of the standard-of-care. A research specialist is not a doctor, but they are a person or team who dedicates their time to knowing the most advanced approaches to non-toxic cancer treatment. The Hippocrates Research Foundation is a good example.
1.) The Patient: Discipline and study is required for the patient to have success.
2.) Centralized Oncologist: In order to get your health insurance to pay for diagnostics like PET scans and blood work you will need a centralized oncologist. You will need to tell them that you intend to eventually use chemotherapy, radiation, and surgery so that they will continue to see you. In essence, you have to lead them on regardless of whether or not you actually intend to use chemotherapy, radiation, and surgery.
3.) Functional Medicine Oncologist: This will give you a second opinion that will be more aligned with non-toxic cancer treatment.
4.) Cancer Nutritionist: A nutrition specialist can make a huge difference. Nutritionists like Mary Ruddick, Katie Deming, or Judy Cho can give specific recommendations for your cancer situation.
5.) Research Specialist: A doctor cannot give you advice on information that they do not know or about research that is outside of the standard-of-care. A research specialist is not a doctor, but they are a person or team who dedicates their time to knowing the most advanced approaches to non-toxic cancer treatment. The Hippocrates Research Foundation is a good example.
Step-By-Step:
1.) Build your team as described above. Communicate with your team daily.
2.) Read all of the literature hyperlinked in this article. All of it. Then find more and read that. Devour lectures and podcasts.
3.) Immediately start with fasting to get into a ketogenic state. Consult your team on the duration and procedure.
4.) Purchase a KetoMojo with supplies and being testing ketones and glucose several times per day. Record all of your data on a spreadsheet.
5.) After completing a fasting period, begin eating mostly fat with moderate protein, but consume fewer calories than you previously consumed. It will take some time to learn how many calories you should eat.
6.) Commit to never missing a sunrise for the rest of life. You must see the red and infrared light as the sun rises to give your mitochondria the frequency of light they need for healing.
7.) Get as much sunlight as possible throughout the day without getting sunburn.
8,) In months with limited sun expose yourself to cold temperatures without getting frost bite. This helps the mitochondria produce ultraviolet light that powers necessary pathways in the absence of sunlight. Also, purchase a red/infrared light, and use it daily. Discuss with your team.
9.) Eliminate exposure to blue light from screens and LED bulbs. Eliminate exposure to EMF from electronic devices.
10.) Eliminate toxic chemicals. Get a water. Stop using disinfectants, soaps, cleaners.
11.) Drink deuterium depleted water. This has been shown by Gabor Somylai to significantly improve cancer survival.
12.) Discuss the use of repurposed drugs with your team. Use the FLCCC Alliance program as a guide.
13.) Discuss the vital role of copper with your team. This can go over-looked. Copper plays a vital role in mitochondria health. Refer to the book by Morley Robbins called [Cu]RE Your Fatigue.
1.) Build your team as described above. Communicate with your team daily.
2.) Read all of the literature hyperlinked in this article. All of it. Then find more and read that. Devour lectures and podcasts.
3.) Immediately start with fasting to get into a ketogenic state. Consult your team on the duration and procedure.
4.) Purchase a KetoMojo with supplies and being testing ketones and glucose several times per day. Record all of your data on a spreadsheet.
5.) After completing a fasting period, begin eating mostly fat with moderate protein, but consume fewer calories than you previously consumed. It will take some time to learn how many calories you should eat.
6.) Commit to never missing a sunrise for the rest of life. You must see the red and infrared light as the sun rises to give your mitochondria the frequency of light they need for healing.
7.) Get as much sunlight as possible throughout the day without getting sunburn.
8,) In months with limited sun expose yourself to cold temperatures without getting frost bite. This helps the mitochondria produce ultraviolet light that powers necessary pathways in the absence of sunlight. Also, purchase a red/infrared light, and use it daily. Discuss with your team.
9.) Eliminate exposure to blue light from screens and LED bulbs. Eliminate exposure to EMF from electronic devices.
10.) Eliminate toxic chemicals. Get a water. Stop using disinfectants, soaps, cleaners.
11.) Drink deuterium depleted water. This has been shown by Gabor Somylai to significantly improve cancer survival.
12.) Discuss the use of repurposed drugs with your team. Use the FLCCC Alliance program as a guide.
13.) Discuss the vital role of copper with your team. This can go over-looked. Copper plays a vital role in mitochondria health. Refer to the book by Morley Robbins called [Cu]RE Your Fatigue.
Watch All Of These Videos and Read All of These Books:
- A Radical and Controversial Approach To Starving Cancer (Thomas Seyfried)
- Starving Cancer: Breaking Down Thomas Seyfriend's Radical and Controversial Protocol (Dhru Purohit)
- Cancer As A Metabolic Disease (Thomas Seyfried)
- Fourth Phase Water, Cancer, Infrared Light, and Reclaiming Fundamental Science (Gerald Pollack)
- A Mitochondrial Etiology of Common Complex Diseases (Doug Wallace)
- Light In Shaping Life (Roeland van Wijk)
- The Fourth Phase of Water (Gerald Pollack)
- A Radical and Controversial Approach To Starving Cancer (Thomas Seyfried)
- Starving Cancer: Breaking Down Thomas Seyfriend's Radical and Controversial Protocol (Dhru Purohit)
- Cancer As A Metabolic Disease (Thomas Seyfried)
- Fourth Phase Water, Cancer, Infrared Light, and Reclaiming Fundamental Science (Gerald Pollack)
- A Mitochondrial Etiology of Common Complex Diseases (Doug Wallace)
- Light In Shaping Life (Roeland van Wijk)
- The Fourth Phase of Water (Gerald Pollack)
Other Resources:
- Petra Davelaar specializes in deuterium as it relates to cancer.
- The Foundation for Metabolic Cancer Therapies.
- Dietary Therapies for cancer.
- Sound therapy by Githa Ben-David.
- Cancer and Diet at KessRX
- Self Rescue Society from terminal to cancer-free
- The Moss Report cancer therapy.
- The Role of Repurposed Drugs and Metabolic Interventions In Treating Cancer
- A Mitochondrial Paradigm of Metabolic and Degenerative Diseases, Aging, and Cancer
- Petra Davelaar specializes in deuterium as it relates to cancer.
- The Foundation for Metabolic Cancer Therapies.
- Dietary Therapies for cancer.
- Sound therapy by Githa Ben-David.
- Cancer and Diet at KessRX
- Self Rescue Society from terminal to cancer-free
- The Moss Report cancer therapy.
- The Role of Repurposed Drugs and Metabolic Interventions In Treating Cancer
- A Mitochondrial Paradigm of Metabolic and Degenerative Diseases, Aging, and Cancer
This article does NOT constitute medical advice.
Consult with your physician before making any changes to your medical plan.
Consult with your physician before making any changes to your medical plan.