Exercise may boost the tumor-shrinking effects of chemotherapy, suggests new research published in the American Journal of Physiology.
In a study of mice with melanoma, scientists from the University of Pennsylvania (Penn) in Philadelphia, found that chemotherapy shrank more tumors when combined with exercise.
Senior author Dr. Joseph Libonati, an associate professor in Penn’s School of Nursing, and colleagues were originally trying to find out if exercise could protect cancer patients against the heart damage that can result from use of the common cancer drug doxorubicin.
Although the drug is effective against a variety of cancers, one of its side effects is the potential damage it can do to heart cells. In the long term, this can cause heart failure. Additionally, the heart-related risks of chemotherapy are thought to be particularly dire for women.
Dr. Libonati says at first, all cancer patients are concerned about is the cancer, “and they’ll do whatever it takes to get rid of it.” But, he adds, “then when you get over that hump you have to deal with the long-term elevated risk of cardiovascular disease.”
There is evidence that taking up regular exercise before undergoing chemotherapy can protect heart cells from the damaging effects of doxorubicin. But it is not yet known whether there is any benefit from exercising during chemotherapy.
For their study, the team picked four groups of mice and induced them with melanoma. Over the next 2 weeks, two of the groups received two injections of doxorubicin, and two received placebo injections.
At the same time, mice in one of the chemotherapy groups and one of the placebo groups were placed on exercise regimens. The other mice did not exercise during the treatment period. The exercising mice walked on treadmills for 45 minutes a day on 5 days of each week.
Exercise helped chemotherapy shrink tumors but did not change effect on heart
After the 2-week period, the team found the mice that received chemotherapy – regardless of whether they had exercised or not – showed signs of heart damage. The damage consisted of reduced heart function and increased fibrosis or tissue thickening.
As Dr. Libonati explains, “exercise didn’t do anything to the heart – it didn’t worsen it, it didn’t help it.”
But he and his team were amazed when they looked at the tumors. They found the mice that had received chemotherapy and exercised had much smaller tumors after 2 weeks than the sedentary mice on chemotherapy.
They conclude that in mice with melanoma, exercise appears to boost the tumor-shrinking effects of doxorubicin, without having an effect on the damage the drug can do to the heart.
They suggest further studies should now look into exactly how exercise boosts the effects of chemotherapy. Perhaps one reason is because exercise improves blood flow, which allows more of the drug to reach the cancer cells, suggests Dr. Libonati.
“If exercise helps in this way, you could potentially use a smaller dose of the drug and get fewer side effects,” Dr. Libonati adds.
He explains that we are only just beginning to understand the effect exercise can have on drug- taking: “People don’t take a drug and then sit down all day. Something as simple as moving affects how drugs are metabolized.”
Finding out more about how exercise affects the body could lead to drugs that mimic the effects of exercise, he says.
Meanwhile, researchers from the University of North Carolina recently discovered that insufficient exercise compromises quality of life and, ultimately, long-term survival among breast cancer patients. The evidence that physical activity post-diagnosis improves quality of life and survival needs to be translated into practice, especially among African-American women who experience higher mortality from breast cancer than other groups in the US, the researchers urged.