Carbohydrate Restriction May Slow Prostate Tumor Growth
Posted Jun 22 2009 10:11pm
Restricting carbohydrates, regardless of weight loss, appears to slow the growth of prostate tumors, according to an animal study recently published by researchers in the Duke Prostate Center.
"Previous work here and elsewhere has shown that a diet light in carbohydrates could slow tumor growth, but the animals in those studies also lost weight, and because we know that weight loss can restrict the amount of energy feeding tumors, we weren't able to tell just how big an impact the pure carbohydrate restriction was having, until now," said Stephen Freedland, M.D., a urologist in the Duke Prostate Center and lead investigator on this study.
The researchers believe that insulin and insulin-like growth factor contribute to the growth and proliferation of prostate cancer, and that a diet devoid of carbohydrates lowers serum insulin levels in the bodies of the mice, thereby slowing tumor growth, Freedland said.
The findings appear in the May 26, 2009 online edition of the journal Cancer Prevention Research.
Animals in the study were fed one of three diets:
a very high fat/no carbohydrate diet
a low-fat/high carbohydrate diet
and a high fat/moderate-carbohydrate diet, which is most similar to the "Western" diet most Americans eat, Freedland said.
They were then injected with prostate tumors at the same time.
"The mice that were fed a no-carbohydrate diet experienced a 40 to 50 percent prolonged survival over the other mice," Freedland said.
Mice on the no-carbohydrate diet consumed more calories in order to keep body weights consistent with mice on the other study arms.
The researchers plan to begin recruiting patients at two sites – Duke and the University of California - Los Angeles - for a clinical trial to determine if restricting carbohydrate intake in patients with prostate cancer can similarly slow tumor growth. The trial should begin within a few weeks.
"It's very exciting - this is a potential new mechanism to fight prostate cancer growth and help patients live longer with their disease," Freedland said.