118 Glutinous grains cause inflammation. Inflammation promotes cancer progression. This means avoiding high-gluten grains such as wheat, spelt or rye, including the whole grains. Pastas, cereals, bread, muffins, cakes, crackers, cookies and other baked goods are excluded from an alkaline, cancer-suppression diet. Cancer patients should enjoy whole, non-gluten grains such as rice, buckwheat, quinoa, millet and amaranth. However, using "gluten free" prepared products is a mistake, as most of them have added sugar or processed oils and will therefore fall outside of the alkaline diet parameters for cancer. Cow dairy has been identified in a very large study compiled by Prof. (Emeritus) T. Colin Campbell, PhD, Cornell University as one of the most cancer promoting foods.[viii] Strangely enough, it is the protein that is the culprit – casein protein. High protein yogurts made with added powdered milk or whey are even more cancer promoting than plain milk, yogurt or cheese. However, all dairy products should be eliminated from the diet when you are fighting cancer.
Dairy products create inflammation, cause bone deterioration (yes it is true, because of the high acid production during digestion of dairy) and promote cancer progression in a similar fashion to sugar. Use only natural, cold-pressed olive oil, coconut oil or avocado oil – organic where possible. These oils are naturally anti-inflammatory, thus provide a soothing and healing benefit to inflamed and potentially cancerous cells in the body. Coconut oil in particular has also been shown to have a mild antibacterial/antifungal effect, helpful for cancer patients with a lowered immune function, as well as direct anti-cancer properties. Oils that should be eliminated from a cancer-suppression diet include corn, soy, canola, safflower or sunflower oils. Not only are the commercial versions of these oils produced from genetically modified plants – believed to increase cancer risk - most of them are highly processed. Processed oils, including hydrogenated (hard) oils and margarines, have been prepared at high heat to improve shelf life. This changes the oil molecules so that instead of acting as a natural conductor for all the electrical messaging in your body, these molecules create "dead spots" in your cells because they cannot conduct electricity. This interferes with healthy cell function and can promote cancer progression. Essentially cancer cells are cells that no longer respond to intracellular messaging and proliferate without purpose, impacting other cells.
112 In the 1880's, Louis Pasteur published his work on cellular aerobic respiration and glycolysis. In 1931, Otto Warburg won the Nobel Prize for his work on the metabolism of tumors and the respiration of cells, which was later summarized in his 1956 paper, On the Origin of Cancer Cells. His work on cancer expanded upon Pasteur's findings and described respiratory insufficiency and a cellular metabolism of glucose fermentation as the primary trigger for cancer progression.
Warburg's conclusions on cancer were much discussed in scientific circles, as they are academically elegant, but were not accepted by most members of the scientific community engaged in cancer research. Most cancer researchers in the late 1950's believed that the anaerobic metabolism of cancer cells and their accompanying output of lactic acid was a side effect or an adjunct effect of cancer, not a cause. Cancer research since the 1960's has focused primarily on genetic aberrations as causative for cancer, and has ignored the body of research on cancer pH and its implications for therapeutic approaches. Warburg's work was a catalyst for yet another research effort on the nature of cancer cells, beginning in the 1930's. A. Keith Brewer, PhD (physicist) performed experiments on the relationship between energized, oxygenated cell membrane and elemental uptake, vs. cellular membranes in an unenergized state such as cancer cells exhibit. He wrote a number of papers discussing the cellular mechanisms of cancer cells and the changes in metabolism induced or indicated by the lack of or presence of oxygen in combination with other elements, particularly potassium and calcium. He noted that cancer cells share one characteristic no matter what type of cancer: they have lost their pH control mechanism.