IPTLD is a procedure for targeting chemotherapeutic drugs directly to cancer cells, making the drugs tougher on the disease and easier on the rest of the body.
Conventional chemotherapy tends to flood the body with drugs so enough will enter the cancer cells to kill them. Each of our trillions of cells has a membrane, an outer skin, that protects it from toxins. Standard chemotherapy must be given in large enough quantities to force penetration through that membrane.
IPTLD, however, penetrates easily through the cell membrane because it goes in hand-in-hand with sugar (glucose). Cancer cells, unlike healthy cells, need lots of glucose for fuel. Without it, they die. The membrane of a cancer cell is designed to take in a lot more glucose than healthy cells. In medical parlance we say cancer cells are equipped with many more insulin receptors. So, what if we pair a small dose of chemo drugs with the glucose? Yes, the cancer cell takes in the chemo in its effort to get at the sugar.
How does IPTLD actually work?
When a doctor administers IPTLD, the first thing he or she does is to gently lower the patient’s blood sugar level with insulin, the same natural hormone diabetics use. The cancer cells, because they must have sugar to live, become ravenous and open those insulin receptors wide to get at whatever they can find in the blood stream’s diminishing supply. When the blood sugar level has dropped enough, the doctor will administer a low dose of chemotherapy. The cancer cells take it in. The doctor then administers glucose which brings the patient’s blood sugar level back up to normal.
Because insulin assists in the delivery of the drugs, IPTLD uses about 90% less chemotherapy compared to conventional oncology. This means that patients continue to thrive, maintain their lifestyle, and be vital while the cancer is eradicated.
Insulin helps us in another way. Chemo is most effective when it connects with a cancer cell as it is dividing because cells are most vulnerable at that phase in their life cycle. Insulin prompts cancer cells to divide – it is thought that insulin is able to prompt cell division at what is called the “therapeutic moment,” the moment when the doctor determines the blood sugar level has dropped enough and the chemotherapy is administered. Thus, insulin helps us deliver chemo when more cells are most vulnerable.
The cells that turn over the fastest in the human body – the ones most likely to be dividing at any one time – are in the intestine, in our mouths, and hair follicles. That is why the side effects with conventional chemo cause people to go bald and often lead to mouth and stomach ulcers, even organ failure. Without insulin, the conventional large dose of chemotherapy attacks whatever cancer cells happen to be dividing, plus the other rapidly dividing cells in the body of which there are many.
The complete article with comparisons to standard chemotherapy is here: