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Living with Cancer 

click to enlarge Unlike conventional chemotherapy, which uses the maximum tolerated dose of chemo drugs, adaptive therapy uses smaller doses that leave enough sensitive cells to essentially crowd out resistant cells.

Image courtesy Robert A. Gatenby

Unlike conventional chemotherapy, which uses the maximum tolerated dose of chemo drugs, adaptive therapy uses smaller doses that leave enough sensitive cells to essentially crowd out resistant cells.

"It may be tough to convince patients, even those with an incurable disease, that the best approach is not to kill as many cancer cells as possible but as few as necessary." — James DeGregori and Robert Gatenby, Scientific American, August, 2019

When his wife, Nancy, was diagnosed with metastatic cancer, veteran science reporter George Johnson was determined to learn everything he could about the disease. She survived (and then, as he stoically recounts, left him) while he wrote the best non-specialist book, IMHO, on cancer: The Cancer Chronicles. His research convinced him that once the body had created cancerous cells, it was impossible to completely eliminate them through chemotherapy because "backed into a corner, they try to mutate their way out of trouble."

Mutations are how cancer cells originate in the first place. With some 4 million cell divisions taking place in our bodies every second, it's inevitable that some slightly-off copies will occur. And while most won't survive, the odd ones will thrive and reproduce, out-competing regular, healthy cells. That's cancer. Since cancer cells reproduce faster than most healthy ones, conventional treatment calls for knocking them out while they're dividing and at their most vulnerable. Which is why chemotherapy, in addition to selectively hitting cancer cells, kills other fast-dividing body cells, including those in hair follicles (hence hair loss), stomach lining (nausea) and bone marrow (source of blood cells, including white cells, hence immunosuppression).

Johnson's conclusion was prescient in the light of the Scientific American article published this month: "The best response might not be to fight back with chemotherapy and radiation, increasing the stress, but to somehow maintain the exuberant cells — the tumor — in a quiescent state, something that can be lived with."

As DeGregori and Gatenby explain it, the idea of living with cancer cells, rather than quixotically trying to completely eliminate them from a patient, has its analogy in crop treatment. Many modern farmers drench their fields with pesticides such as pyrethrin compounds; more than 2 million tons of industrial pesticides are used globally every year.

Evolution tells us that in any population there will always be some pests that develop resistance and thrive once their "weaker" cousins are eliminated. The stronger the pesticide, the more resistant the survivors. So agricultural scientists have been recommending "integrated pest management," the strategic use of pesticides to control but not eliminate crop-eating critters, thus maintaining the vulnerability of most pests to pesticides.

Same with chemotherapy. Instead of giving a patient with a cancerous tumor the maximum tolerated dose, or MTD (i.e. just short of killing them), give them just enough (typically 40 percent of the MTD) to contain the tumor. After treatment, the tumor will still have both chemo-sensitive cells and chemo-resistant cells, but the former will outnumber the latter, keeping the resistant cells in check (see graphic). Another course of chemotherapy will be required since the tumor (now reduced) is still there. But now it will be vulnerable to chemotherapy, whereas a recurring tumor following conventional treatment usually isn't.

This evolution-based "adaptive therapy" is still in trial stages but shows promise in the treatment of a small group of patients with metastasized prostrate cancer: average survival 34+ months vs. 13 months with conventional chemo. It may not be the silver bullet oncologists once dreamt about, but by working with evolution in this way, physicians may be able to help cancer patients live with their disease into old age.

Barry Evans (barryevans9@yahoo.com) has to remind himself that cancer is an inevitable consequence of evolution and that dinosaurs died from it, too.

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About The Author

Barry Evans

Barry Evans

Bio:
Barry Evans lives in Old Town Eureka with his girlfriend (and wife) Louisa Rogers, several kayaks and bikes, and a stuffed gorilla named “Nameless.” A recovering civil engineer, he is the author of two McGraw-Hill popular science books and has taught science and history. His Field Notes anthologies are available... more

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