However, in many cases the experimental period of the physical ex

However, in many cases the experimental period of the physical exercise is longer than 12 weeks [40–43], whereas in our study the period was only 6 weeks. On the other hand, many models with induced colon cancer use a 20 at 40 mg/kg of DMH [30, 44, 45], while in the present work 50 mg/kg of DMH was used. This could STA-9090 supplier have masked the potential beneficial effect of physical exercise. The mechanisms underlying the exercise-induced protection against pre-neoplastic lesions are still not clear. It has been suggested that calorie restriction-induced weight loss and an exercise-induced negative energy balance inhibit the initiation or proliferation of ACF on the colon mucosa [46]. However, the present

study the body weight gain was not significantly reduced by training of any intensity and all animals received a controlled feed and none showed signs of obesity. The results reported in this article show that consumption of the fermented soy product described here and the practice

of physical exercise (intense or moderate) were incapable, separately or combined, of inhibiting the formation of ACF in DMH-induced rats. In fact, intense physical exercise led to an increased number of foci in the KU-57788 order colons of these rats and, probably, to greater susceptibility to colorectal cancer. Further research is needed, however, to have a better understanding of the complex interaction between the type of exercise and the phases (initiation, promotion and progression) of colon cancer. Acknowledgements This work

was supported by FAPESP. References 1. Fodde R: The APC gene in colorectal cancer. European Journal of Cancer 2002, 38:867–71.CrossRefPubMed 2. Bird RP: MAPK inhibitor Observation and quantification of aberrant crypts in the murine colon treated with a colon carcinogen: Preliminary findings. Cancer Letter O-methylated flavonoid 1987, 37:147–51.CrossRef 3. Bird RP: Role of aberrant crypt foci in understanding the pathogenesis of colon cancer. Cancer Letter 1981, 93:55–71.CrossRef 4. Thorup I, Meyer O, Kristiansen E: Influence of a dietary fiber on development of dimethylhydrazine-induced aberrant crypt foci and colon tumor incidence in Wistar rats. Nutrition Cancer 1984, 2:177–82. 5. Demarzo MM, Garcia SB: Exhaustive physical exercise increases the number of colonic pre-neoplastic lesions in untrained rats treated with a chemical carcinogen. Cancer Letter 2004, 216:31–4.CrossRef 6. Boyle P, Leon ME: Epidemiology of colorectal cancer. Br Med B 2002, 64:1–25.CrossRef 7. Whittemore AS, Wu-Willians AH, Lee M: Diet, physical activity and colorectal cancer among Chinese in North America and China. J Natl Cancer Inst 1990, 82:915–26.CrossRefPubMed 8. Potter JD, Slattery ML, Bostick RM, Gapstur SM: Colon Cancer: A Review of the Epidemiology. Epidemiol Rev 2004, 5:499–545. 9. Schottenfeld D, Winawer SJ: Cancers of Large Intestine. Cancer Epidemiology and Prevention (Edited by: Schottenfeld D, Fraumeni JF). Oxford University Press 1996. 10.

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