Abstract
Background/Objectives:
The association between meat consumption and the risk of colorectal cancer (CRC) has been controversial. One of the difficulties in determining this association has been measurement of different attributes of meat consumption, including cooking methods and level of doneness.
Subjects/Methods:
We investigated the association between meat consumption and cooking practices and the risk of CRC in a population-based case–control study in the Western Australian Bowel Health Study. From July 2005 to February 2007, 567 incident CRC cases and 713 controls, who were frequency matched to cases for age- and sex, completed questionnaires on lifestyle and meat consumption. Estimated odds ratios (ORs) comparing meat consumption quartile groups were obtained from multivariate logistic regression models.
Results:
The amount of red baked meat consumed had a statistically significant inverse trend of association with CRC (Q4 OR=0.73 95% confidence interval 0.53–1.01). When frequency was multiplied by serving size and by doneness, the association remained protective but was no longer statistically significant. The protective trends for red pan-fried meat were also borderline statistically significant. There were no other statistically significant or meaningful associations with any of the types of meat cooked by any method and the risk of CRC.
Conclusions:
Our data do not support the hypothesis that meat consumption is a risk factor for CRC.
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References
Alexander D, Cushing C (2010). Red meat and colorectal cancer: a critical summary of prospective epidemiologic studies. Obesity Rev; e-pub ahead of print.
Ambrosini GL, Van Roosbroeck SA, Mackerras D, Fritschi L, De Klerk NH, Musk AW (2003). The reliability of ten-year dietary recall: implications for cancer research. J Nutr 133, 2663–2668.
Australian Bureau of Statistics (1998). Apparent Consumption of Selected Foodstuffs, Australia, 1997–98 Preliminary. Canberra.
Benito E, Obrador A, Stiggelbout A, Bosch FX, Mulet M, Munoz N et al. (1990). A population-based case-control study of colorectal cancer in Majorca. I. Dietary factors. Int J Cancer 45, 69–76.
Boutron-Ruault MC, Senesse P, Faivre J, Chatelain N, Belghiti C, Meance S (1999). Foods as risk factors for colorectal cancer: a case-control study in Burgundy (France). Eur J Cancer Prev 8, 229–235.
Boyle P, Boffetta P, Autier P (2008). Diet, nutrition and cancer: public, media and scientific confusion. Ann Oncol 19, 1665–1667.
Byers T, Marshall J, Anthony E, Fiedler R, Zielezny M (1987). The reliability of dietary history from the distant past. Am J Epidemiol 125, 999–1011.
Cancer Council of Victoria (2008). Cancer Epidemiology Centre Food Frequency Questionnaire. Retrieved 26 September 2008, from http://cancervic.org.au/about-our-research/cancer_epidemiology_centre/nutritional_assessment_services.
Chao A, Thun MJ, Connell CJ, Mccullough ML, Jacobs EJ, Flanders WD et al. (2005). Meat consumption and risk of colorectal cancer. JAMA 293, 172–182.
Cross AJ, Sinha R (2004). Meat-related mutagens/carcinogens in the etiology of colorectal cancer. Environ Mol Mutagen 44, 44–55.
Cross AJ, Pollock JR, Bingham SA (2003). Haem, not protein or inorganic iron, is responsible for endogenous intestinal N-nitrosation arising from red meat. Cancer Res 63, 2358–2360.
English DR, Macinnis RJ, Hodge AM, Hopper JL, Haydon AM, Giles GG (2004). Red meat, chicken, and fish consumption and risk of colorectal cancer. Cancer Epidemiol Biomarkers Prev 13, 1509–1514.
Fay LB, Ali S, Gross GA (1997). Determination of heterocyclic aromatic amines in food products: automation of the sample preparation method prior to HPLC and HPLC-MS quantification. Mutat Res 376, 29–35.
Felton JS, Knize MG, Dolbeare FA, Wu R (1994). Mutagenic activity of heterocyclic amines in cooked foods. Environ Health Perspect 102 (Suppl 6), 201–204.
Franceschi S, Favero A, La Vecchia C, Negri E, Conti E, Montella M et al. (1997). Food groups and risk of colorectal cancer in Italy. Int J Cancer 72, 56–61.
Gaard M, Tretli S, Loken EB (1996). Dietary factors and risk of colon cancer: a prospective study of 50,535 young Norwegian men and women. Eur J Cancer Prev 5, 445–454.
Gerhardsson De Verdier M, Hagman U, Peters RK, Steineck G, Overvik E (1991). Meat, cooking methods and colorectal cancer: a case-referent study in Stockholm. Int J Cancer 49, 520–525.
Giovannucci E, Rimm EB, Stampfer MJ, Colditz GA, Ascherio A, Willett WC (1994). Intake of fat, meat, and fiber in relation to risk of colon cancer in men. Cancer Res 54, 2390–2397.
Hill M (2002). Meat, cancer and dietary advice to the public. Eur J Clin Nutr 56 (Suppl 1), S36–S41.
Hill MJ (1997). Meat and colorectal cancer: what does the evidence show? Eur J Cancer Prev 6, 415–417.
Hill MJ (1999). Meat and colo-rectal cancer. Proc Nutr Soc 58, 261–264.
Hsing AW, Mclaughlin JK, Chow WH, Schuman LM, Co Chien HT, Gridley G et al. (1998). Risk factors for colorectal cancer in a prospective study among US white men. Int J Cancer 77, 549–553.
Hughes R, Cross AJ, Pollock JR, Bingham S (2001). Dose-dependent effect of dietary meat on endogenous colonic N-nitrosation. Carcinogenesis 22, 199–202.
Iacopetta B, Heyworth J, Girschik J, Grieu F, Clayforth C, Fritschi L (2009). The MTHFR C677T and DeltaDNMT3B C-149T polymorphisms confer different risks for right- and left-sided colorectal cancer. Int J Cancer 125, 84–90.
Iscovich JM, L′abbe KA, Castelleto R, Calzona A, Bernedo A, Chopita NA et al. (1992). Colon cancer in Argentina. I: Risk from intake of dietary items. Int J Cancer 51, 851–857.
Kampman E, Slattery ML, Bigler J, Leppert M, Samowitz W, Caan BJ et al. (1999). Meat consumption, genetic susceptibility, and colon cancer risk: a United States multicenter case-control study. Cancer Epidemiol Biomarkers Prev 8, 15–24.
Kampman E, Verhoeven D, Sloots L, Van’T Veer P (1995). Vegetable and animal products as determinants of colon cancer risk in Dutch men and women. Cancer Causes Control 6, 225–234.
Keating GA, Layton DW, Felton JS (1999). Factors determining dietary intakes of heterocyclic amines in cooked foods. Mutat Res 443, 149–156.
Kune S, Kune GA, Watson LF (1987). Case-control study of dietary etiological factors: the Melbourne Colorectal Cancer Study. Nutr Cancer 9, 21–42.
La Vecchia C, Ferraroni M, Mezzetti M, Enard L, Negri E, Franceschi S et al. (1996). Attributable risks for colorectal cancer in northern Italy. Int J Cancer 66, 60–64.
La Vecchia C, Negri E, Decarli A, D’avanzo B, Gallotti L, Gentile A et al. (1988). A case-control study of diet and colo-rectal cancer in northern Italy. Int J Cancer 41, 492–498.
Lang NP, Butler MA, Massengill J, Lawson M, Stotts RC, Hauer-Jensen M et al. (1994). Rapid metabolic phenotypes for acetyltransferase and cytochrome P4501A2 and putative exposure to food-borne heterocyclic amines increase the risk for colorectal cancer or polyps. Cancer Epidemiol Biomarkers Prev 3, 675–682.
Larsson SC, Wolk A (2006). Meat consumption and risk of colorectal cancer: a meta-analysis of prospective studies. Int J Cancer 119, 2657–2664.
Le Marchand L, Wilkens LR, Hankin JH, Kolonel LN, Lyu LC (1997). A case-control study of diet and colorectal cancer in a multiethnic population in Hawaii (United States): lipids and foods of animal origin. Cancer Causes Control 8, 637–648.
Lee HP, Gourley L, Duffy SW, Esteve J, Lee J, Day NE (1989). Colorectal cancer and diet in an Asian population--a case-control study among Singapore Chinese. Int J Cancer 43, 1007–1016.
Levi F, Pasche C, La Vecchia C, Lucchini F, Franceschi S (1999). Food groups and colorectal cancer risk. Br J Cancer 79, 1283–1287.
Lindsted KD, Kuzma JW (1990). Reliability of eight-year diet recall in cancer cases and controls. Epidemiology 1, 392–401.
Murtaugh MA, Ma KN, Sweeney C, Caan BJ, Slattery ML (2004). Meat consumption patterns and preparation, genetic variants of metabolic enzymes, and their association with rectal cancer in men and women. J Nutr 134, 776–784.
Muscat JE, Wynder EL (1994). The consumption of well-done red meat and the risk of colorectal cancer. Am J Public Health 84, 856–858.
National Cancer Institute (2007). Computerized heterocyclic amine resource for research in epidemiology of diseases (CHARRED); http://charred.cancer.gov/.
Navarro A, Munoz SE, Lantieri MJ, Del Pilar Diaz M, Cristaldo PE, De Fabro SP et al. (2004). Meat cooking habits and risk of colorectal cancer in Cordoba, Argentina. Nutrition 20, 873–877.
Norat T, Bingham S, Ferrari P, Slimani N, Jenab M, Mazuir M et al. (2005). Meat, fish, and colorectal cancer risk: the European Prospective Investigation into cancer and nutrition. J Natl Cancer Inst 97, 906–916.
Norat T, Lukanova A, Ferrari P, Riboli E (2002). Meat consumption and colorectal cancer risk: dose-response meta-analysis of epidemiological studies. Int J Cancer 98, 241–256.
Nowell S, Coles B, Sinha R, Macleod S, Luke Ratnasinghe D, Stotts C et al. (2002). Analysis of total meat intake and exposure to individual heterocyclic amines in a case-control study of colorectal cancer: contribution of metabolic variation to risk. Mutat Res 506–507, 175–185.
Peters RK, Pike MC, Garabrant D, Mack TM (1992). Diet and colon cancer in Los Angeles County, California. Cancer Causes Control 3, 457–473.
Pickle LW, Greene MH, Ziegler RG, Toledo A, Hoover R, Lynch HT et al. (1984). Colorectal cancer in rural Nebraska. Cancer Res 44, 363–369.
Sanjoaquin MA, Appleby PN, Thorogood M, Mann JI, Key TJ (2004). Nutrition, lifestyle and colorectal cancer incidence: a prospective investigation of 10998 vegetarians and non-vegetarians in the United Kingdom. Br J Cancer 90, 118–121.
Sawa T, Akaike T, Kida K, Fukushima Y, Takagi K, Maeda H (1998). Lipid peroxyl radicals from oxidized oils and heme-iron: implication of a high-fat diet in colon carcinogenesis. Cancer Epidemiol Biomarkers Prev 7, 1007–1012.
Sellers TA, Bazyk AE, Bostick RM, Kushi LH, Olson JE, Anderson KE et al. (1998). Diet and risk of colon cancer in a large prospective study of older women: an analysis stratified on family history (Iowa, United States). Cancer Causes Control 9, 357–367.
Shannon J, White E, Shattuck AL, Potter JD (1996). Relationship of food groups and water intake to colon cancer risk. Cancer Epidemiol Biomarkers Prev 5, 495–502.
Sinha R, Rothman N (1999). Role of well-done, grilled red meat, heterocyclic amines (HCAs) in the etiology of human cancer. Cancer Lett 143, 189–194.
Skog K (1993). Cooking procedures and food mutagens: a literature review. Food Chem Toxicol 31, 655–675.
Steinmetz KA, Potter JD (1993). Food-group consumption and colon cancer in the Adelaide Case-Control Study. II. Meat, poultry, seafood, dairy foods and eggs. Int J Cancer 53, 720–727.
Tiemersma EW, Voskuil DW, Bunschoten A, Hogendoorn EA, Witteman BJ, Nagengast FM et al. (2004). Risk of colorectal adenomas in relation to meat consumption, meat preparation, and genetic susceptibility in a Dutch population. Cancer Causes Control 15, 225–236.
Truswell A (2009). Problems with red meat in the WCRF2. Am J Clin Nutr 89, 1275–1276.
Tuyns AJ, Kaaks R, Haelterman M (1988). Colorectal cancer and the consumption of foods: a case-control study in Belgium. Nutr Cancer 11, 189–204.
Wei EK, Giovannucci E, Wu K, Rosner B, Fuchs CS, Willett WC et al. (2004). Comparison of risk factors for colon and rectal cancer. Int J Cancer 108, 433–442.
Willett WC, Stampfer MJ, Colditz GA, Rosner BA, Speizer FE (1990). Relation of meat, fat, and fiber intake to the risk of colon cancer in a prospective study among women. N Engl J Med 323, 1664–1672.
World Cancer Research Fund and American Institute for Cancer Research (2007). Food, Nutrition, Physical Activity, and the Prevention of Cancer: A Global Perspective. Washington, DC.
Acknowledgements
This work was supported by the Australian National Health and Medical Research Council (NHMRC Project ID 353568). LF is supported by a NHMRC Research Fellowship. The WABOHS team comprised Cassandra Clayforth, Clare Tran, Beatriz Cuesta Briand, Jenny Landrigan and Kieran McCaul.
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Tabatabaei, S., Fritschi, L., Knuiman, M. et al. Meat consumption and cooking practices and the risk of colorectal cancer. Eur J Clin Nutr 65, 668–675 (2011). https://doi.org/10.1038/ejcn.2011.17
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DOI: https://doi.org/10.1038/ejcn.2011.17
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