If at the same time exogenous carcinogens are excluded rigorously, then much of the endogenous cancer may be prevented today. To prevent cancer it is therefore proposed first to keep the speed of the blood stream so high that the venous blood still contains sufficient oxygen second, to keep high the concentration of hemoglobin in the blood third, to add always to the food, even of healthy people, the active groups of the respiratory enzymes and to increase the doses of these groups, if a precancerous state has already developed. Of course, respiration cannot be repaired if it is impaired at the same time by a carcinogen. Thus, when respiration disappears, life does not disappear, but the meaning of life disappears, and what remains are growing machines that destroy the body in which they grow.Īll carcinogens impair respiration directly or indirectly by deranging capillary circulation, a statement that is proven by the fact that no cancer cell exists without exhibiting impaired respiration. In every case, during the cancer development, the oxygen respiration always falls, fermentation appears, and the highly differentiated cells are transformed into fermenting anaerobes, which have lost all their body functions and retain only the now useless property of growth and replication. Oxygen gas, the donor of energy in plants and animals, is dethroned in the cancer cells and replaced by the energy yielding reaction of the lowest living forms, namely the fermentation of sugar. From the standpoint of the physics and chemistry of life this difference between normal and cancer cells is so great that one can scarcely picture a greater difference. All normal body cells are thus obligate aerobes, whereas all cancer cells are partial anaerobes. The prime cause of cancer is the replacement of the respiration of oxygen (oxidation of sugar) in normal body cells by fermentation of sugar.Īll normal body cells meet their energy needs by respiration of oxygen, whereas cancer cells meet their energy needs in great part by fermentation. But, even for cancer, there is only one prime cause. By the prime cause of a disease, I mean one that is found in every case of the disease.Ĭancer, above all other diseases, has countless secondary causes. For example, the prime cause of the plague is the plague bacillus, but secondary causes of the plague are filth, rats, and the fleas that transfer the plague bacillus from rats to man. There are prime and secondary causes of diseases. Otto Warburg lecture delivered to Nobel Laureates on Jat Lindau, Lake Constance, Germany Acid conditions expel oxygen from the body, while healthy alkaline conditions encourage oxygen to be absorbed.Įxcerpts from The Prime Cause and Prevention of Cancerĭr. EWOT produces the benefits of hydrogen peroxide therapy and you can do it at home.Īlternative clinics and hospitals will use acid-neutralizing minerals like calcium, magnesium and potassium to correct acid/alkaline imbalances in the body. The evidence is good however that oxygen helps.ĮWOT is a clumsy acronym for Exercise With Oxygen Therapy and means doing light exercise, such as on a treadmill or stationary bicycle, while breathing pure oxygen. At first this seems in contrast the the fact that active oxygen molecules (free radicals) are what cause cancer and degeneration in the first place. One appealing line of treatment therefore is to increase the body’s levels of oxygen. It turns out that cancer cells cannot survive in the presence of high levels of oxygen. Cancer cells are anaerobic, which means that they derive their energy without needing oxygen. Otto Warburg received the Nobel prize in 1931 for the discovery that unlike all other cells in the human body, cancer cells do not breathe oxygen. Because no cancer cell exists, the respiration of which is intact, it cannot be disputed that cancer could be prevented if the respiration of the body cells would be kept intact.”ĭr. Summarized in a few words, the cause of cancer is the replacement of the respiration of oxygen in normal body cells by a fermentation of sugar. He has shown, among other things, that cancerous cells can live and develop, even in the absence of oxygen. Warburg’s discovery has opened up new ways in the fields of cellular metabolism and cellular respiration. He showed, among other things, that cancerous cells can live and develop, even in the absence of oxygen. This discovery opened up new ways in the fields of cellular metabolism and cellular respiration. For his discovery of the nature and mode of action of the respiratory enzyme, the Nobel Prize was awarded to Otto Heinrich Warburg in 1931.
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