Canadian researchers find a simple cure for cancer, but major pharmaceutical companies are not interested.
Researchers at the University of Alberta, in Edmonton, Canada have recently cured cancer, yet there is but little ripple in the news or on TV. It is a simple technique using a very basic drug. The method employsdichloroacetate, which is currently used to treat metabolic disorders, so there is no concern of side effects or other long term effects.
The drug doesn’t require a patent, so anyone can employ it widely and cheaply compared to the costly cancer drugs produced by major pharmaceutical companies.
Canadian scientists tested dichloroacetate (DCA) on human cells; it killed lung, breast and brain cancer cells and left the healthy cells alone. It was tested on rats inflicted with severe tumors; their cells shrank when they were fed with water supplemented with DCA. The drug is widely available and the technique is easy to use, but why are the major drug companies not involved, or the media not interested in this find?
In human cells there is a natural cancer fighting organelle, the mitochondria, but it needs to be triggered in order to be effective. Scientists used to think that the mitochondria of cancerous cells were damaged and thus ineffective. They used to focus on glycolysis, which is less effective in fighting cancer and wasteful. The drug manufacturersfocused on the glycolysis method to fight cancer. DCA treatment on the other hand doesn’t rely on glycolysis but instead on reactivating the mitochondria; which allows the cell to die and prevents the cancer from spreading.
This reactivation is a process called apoptosis. You see, mitochondria contain an all-too-important self-destruct button that cannot be pressed in cancer cells. Without it, tumors grow larger as cells refuse to be extinguished. Fully functioning mitochondria, thanks to DCA, can once again be allowed to die.
With glycolysis turned off, the body produces less lactic acid, so the bad tissue around cancer cells doesn’t break down and seed new tumors.
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