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Diet and cancer

From Wikipedia, the free encyclopedia
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Many dietary recommendations have been proposed to reduce the risk of cancer, few have significant supporting scientific evidence.[1][2][3] Obesity and drinking alcohol have been correlated with the incidence and progression of some cancers.[1] Lowering the consumption of sweetened beverages is recommended as a measure to address obesity.[4]

Some specific foods are linked to specific cancers. There is strong evidence that processed meat and red meat intake increases risk of colorectal cancer.[5][6][7][8] Aflatoxin B1, a frequent food contaminant, increases risk of liver cancer,[9] while drinking coffee is associated with a reduced risk.[10] Betel nut chewing causes oral cancer.[9] Stomach cancer is more common in Japan due to its high-salt diet.[9][11]

Dietary recommendations for cancer prevention typically include weight management and eating a healthy diet, consisting mainly of "vegetables, fruit, whole grains and fish, and a reduced intake of red meat, animal fat, and refined sugar."[1] A healthy dietary pattern may lower cancer risk by 10–20%.[12] There is no clinical evidence that diets or specific foods can cure cancer.[13][14]

Types of diet

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Restrictive diets

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It is a popular misconception that cancer can be treated by "starving" a tumour or restricting carbohydrate intake, when in reality the health of people with cancer is best served by following a healthy diet.[15] A number of specific diets and diet-based regimes have been claimed to be useful against cancer, including the Breuss diet, Gerson therapy, the Budwig protocol and the macrobiotic diet. None of these diets has been found to be effective, and some of them have been found to be harmful.[16]

Dietary patterns

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Nutritional epidemiologists use multivariate statistics, such as principal components analysis and factor analysis, to measure how patterns of dietary behavior influence the risk of developing cancer.[17] (The most well-studied dietary pattern is the Mediterranean diet.) Based on their dietary pattern score, epidemiologists categorize people into quantiles. To estimate the influence of dietary behavior on risk of cancer, they measure the association between quantiles and the distribution of cancer prevalence (in case–control studies) and cancer incidence (in longitudinal studies). They usually include other variables in their statistical model to account for the other differences between people with and without cancer (confounders). For breast cancer, there is a replicated trend for women with a more "prudent or healthy" diet, i.e. higher in fruits and vegetables, to have a lower risk of cancer.[18]

Unhealthy dietary patterns are associated with a higher body mass index suggesting a potential mediating effect of obesity on cancer risk.[19]

Western pattern diet

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The Western pattern diet has been generally linked to increased risk for colorectal cancer.[20] Meta-analyses have found that diet patterns consistent with those of the Western pattern diet are positively correlated with risk for prostate cancer.[21][22] Greater adherence to a Western pattern diet was also found to increase the overall risk of mortality due to cancer.[23]

No significant relation has been established between the Western pattern diet and breast cancer.[24][25]

Mediterranean diet

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A meta-analysis in 2008 found that strictly following the Mediterranean diet was correlated with a decreased risk of dying from cancer by 6%.[26] Another 2014 review found that adherence to the Mediterranean diet was associated with a decreased risk of death from cancer.[27] A 2017 review found a decreased rate of cancer, although evidence was weak.[28] An updated review in 2021 found that the Mediterranean diet is associated with a 13% lower risk of cancer mortality in the general population.[29]

Dietary components

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Alcohol

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Alcohol is associated with an increased risk of a number of cancers.[30] It has been reported that 3.6% of all cancer cases and 3.5% of cancer deaths worldwide are attributable to drinking of alcohol.[31] Breast cancer in women is linked with alcohol intake.[1][32] Alcohol also increases the risk of cancers of the mouth, esophagus, pharynx and larynx,[33] colorectal cancer,[34][35] liver cancer,[36] stomach[37] and ovaries.[38] The International Agency for Research on Cancer (Centre International de Recherche sur le Cancer) of the World Health Organization has classified alcohol as a Group 1 carcinogen. Its evaluation states, "There is sufficient evidence for the carcinogenicity of alcoholic beverages in humans. ... Alcoholic beverages are carcinogenic to humans (Group 1)."[39]

Eggs

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A 2015 meta-analysis found an association between higher egg consumption (five a week) with increased risk of breast cancer compared to no egg consumption.[40] Another meta-analysis found that egg consumption may increase ovarian cancer risk.[41]

A 2019 meta-analysis found an association between high egg consumption and risk of upper aero-digestive tract cancers in hospital-based case-control studies.[42]

A 2021 review did not find a significant association between egg consumption and breast cancer.[43] A 2021 umbrella review found that egg consumption significantly increases the risk of ovarian cancer.[44]

Processed and red meat

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There is strong evidence that processed meat and red meat intake increases risk of colorectal cancer.[45][46][47] The American Cancer Society in their "Diet and Physical Activity Guideline", stated "evidence that red and processed meats increase cancer risk has existed for decades, and many health organizations recommend limiting or avoiding these foods."[48]

On October 26, 2015, the International Agency for Research on Cancer of the World Health Organization reported that eating processed meat (e.g., bacon, ham, hot dogs, sausages) or red meat was linked to some cancers and classed them as Group 1 (carcinogenic to humans) and Group 2a (probably carcinogenic to humans) carcinogens respectively.[49] There is some evidence that suggests that heme and nitrite are involved in the processes linking red and processed meat intake with colorectal cancer.[49] Heme is present in particular in red meat and nitrite is used as curing salt in many processed meats.

Processed and unprocessed red meat intake is associated with an increased risk of breast cancer.[50][51]

Salted fish

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Due to the elevated levels of nitrites, consuming salted fish increases risk of stomach cancer and nasopharyngeal cancer.[52][53][54] The International Agency for Research on Cancer classify salted fish (Chinese-style) as a Group 1 carcinogen.[55][56]

Fiber, fruits and vegetables

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There is strong evidence that consumption of dietary fiber reduces risk of colorectal cancer.[3][57][58] Two 2020 meta-analyses found that a high fiber intake was associated with a lower risk of both premenopausal and postmenopausal breast cancers[59] and a higher survival rate in patients with breast cancer.[60]

A 2021 review found that there is moderate-quality evidence 200g of fruit intake per day is associated with a lower risk of breast cancer.[61] Another review found that high total fruit and vegetable consumption are associated with reduced risk of breast cancer.[62] A 2024 review found convincing evidence for high dietary fiber intake associated with lower breast cancer risk.[63]

Pickled vegetables

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In 1993, the World Health Organization listed traditional Asian pickled vegetables as possible carcinogens,[64] and the British Journal of Cancer released an online 2009 meta-analysis of research on pickles as increasing the risks of esophageal cancer. The report, citing limited data in a statistical meta analysis, indicates a potential two-fold increased risk of esophageal cancer associated with Asian pickled vegetable consumption. Results from the research are described as having "high heterogeneity" and the study said that further well-designed prospective studies were warranted.[65] However, their results stated "The majority of subgroup analyses showed a statistically significant association between consuming pickled vegetables and Oesophageal Squamous Cell Carcinoma".[65]

Consuming pickled vegetables is also associated with a 28% increase in the risk of stomach cancer.[66]

The 2009 meta-analysis reported heavy infestation of pickled vegetables with fungi. Some common fungi can facilitate the formation of N-nitroso compounds, which are strong esophageal carcinogens in several animal models.[67] Roussin red methyl ester,[68] a non-alkylating nitroso compound with tumour-promoting effect in vitro, was identified in pickles from Linzhou, Henan (formerly Linxian) in much higher concentrations than in samples from low-incidence areas. Fumonisin mycotoxins have been shown to cause liver and kidney tumours in rodents.[65]

A 2017 study in Chinese Journal of Cancer[69] has linked salted vegetables (pickled mustard green [zh] common in Chinese cuisine) to a fourfold increase in nasopharynx cancer. The researchers believe possible mechanisms include production of nitrosamines (a type of N-nitroso compound) by fermentation and activation of Epstein–Barr virus by fermentation products.[70][71]

Historically, pickling caused health concerns for reasons associated with copper salts, as explained in the mid-19th century The English and Australian Cookery Book: "The evidence of the Lancet commissioner (Dr. Hassall) and Mr. Blackwell (of the eminent firm of Crosse and Blackwell) went to prove that the pickles sold in the shops are nearly always artificially coloured, and are thus rendered highly unwholesome, if not actually poisonous."

Flavonoids

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Flavonoids (specifically flavonoids such as the catechins) are "the most common group of polyphenolic compounds in the human diet and are found ubiquitously in plants."[72] While some studies have suggested flavonoids may have a role in cancer prevention, others have been inconclusive or suggested they may be harmful.[73][74]

Methionine

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Restriction of methionine has been suggested as a strategy in cancer growth control in cancers that depend on methionine for survival and proliferation.[75] According to a 2012 review, the effect of methionine restriction on cancer has yet to be studied directly in humans and "there is still insufficient knowledge to give reliable nutritional advice".[75]

Reviews of epidemiological studies have found no association between dietary methionine and breast or pancreatic cancer risk.[76][77]

Mushrooms

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According to Cancer Research UK, "there is currently no evidence that any type of mushroom or mushroom extract can prevent or cure cancer", although research into some species continues.[78]

A 2020 review found that higher mushroom consumption is associated with lower risk of breast cancer.[79]

Dairy products

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The American Institute for Cancer Research (AICR), World Cancer Research Fund International (WCRF), Cancer Council Australia (CCA) and Cancer Research UK have stated that there is strong evidence that consumption of dairy products decreases risk of colorectal cancer.[80][81][82][83] The AICR, WCRF, CCA and Prostate Cancer UK have stated that there is limited but suggestive evidence that dairy products increase risk of prostate cancer.[80][81][82][84][85] The American Cancer Society (ACS) have stated that because dairy products "may lower the risk of some cancers and possibly increase the risk of others, the ACS does not make specific recommendations on dairy food consumption for cancer prevention."[86]

It has been suggested that consumption of insulin-like growth factor 1 (IGF-1) in dairy products could increase cancer risk, particularly prostate cancer.[87][88] However, a 2018 review by the Committee on Carcinogenicity of Chemicals in Food, Consumer Products and the Environment (COC) concluded that there is "insufficient evidence to draw any firm conclusions as to whether exposure to dietary IGF-1 is associated with an increased incidence of cancer in consumers".[88] The COC also stated it is unlikely that there would be absorption of intact IGF-1 from food by most consumers.[89]

A 2019 review concluded that higher-quality research was needed to characterise valid associations between dairy consumption and risk of and/or cancer-related mortality.[90] A 2021 umbrella review found strong evidence that consumption of dairy products decreases risk of colorectal cancer.[91] Fermented dairy is associated with significantly decreased bladder cancer and colorectal cancer risk.[92] A 2023 review found no association between consumption of dairy products and breast cancer.[93]

The British Dietetic Association have described the idea that milk promotes hormone related cancerous tumour growth as a myth, stating "no link between dairy containing diets and risk of cancer or promoting cancer growth as a result of hormones".[94] In 2024, Cancer Research UK stated "there is no reliable evidence that casein or hormones in dairy causes cancer in people".[95]

Whole grains

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There is strong evidence that consumption of whole grains decreases risk of colorectal cancer.[58][96][97][98]

Saturated fat

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Several reviews of case–control studies have found that saturated fat intake is associated with breast cancer risk and mortality.[99][100][101]

Observational studies have shown that a diet high in saturated fat increases the risk of prostate cancer.[102]

Soy

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The American Cancer Society have stated that "there is some evidence from human and lab studies that consuming traditional soy foods such as tofu may lower the risk of breast and prostate cancer, but overall the evidence is too limited to draw firm conclusions".[103]

A 2023 review found that soy protein lowers breast cancer risk.[104]

Other

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  • Green tea consumption has no effect on cancer risk.[105][106][107]
  • A 2016 meta-analysis showed that women and men who drank coffee had a lower risk of liver cancer.[10] An umbrella review of meta-analyses found that coffee was associated with a lower risk of liver and endometrial cancer.[108]
  • A 2014 systematic review found, "no firm evidence that vitamin D supplementation affects cancer occurrence in predominantly elderly community-dwelling women."[109]

See also

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References

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  1. ^ a b c d Wicki A, Hagmann J (9 September 2011). "Diet and cancer". Swiss Medical Weekly. 141: w13250. doi:10.4414/smw.2011.13250. PMID 21904992.
  2. ^ Papadimitriou N, Markozannes G, Kanellopoulou A, Critselis E, Alhardan S, Karafousia V, Kasimis JC, Katsaraki C, Papadopoulou A, Zografou M, Lopez DS, Chan DS, Kyrgiou M, Ntzani E, Cross AJ, Marrone MT, Platz EA, Gunter MJ, Tsilidis KK (2021). "An umbrella review of the evidence associating diet and cancer risk at 11 anatomical sites". Nature Communications. 12 (1): 4579. Bibcode:2021NatCo..12.4579P. doi:10.1038/s41467-021-24861-8. PMC 8319326. PMID 34321471.
  3. ^ a b Jabbari M, Pourmoradian S, Eini-Zinab H, Mosharkesh E, Hosseini Balam F, Yaghmaei Y, Yadegari A, Amini B, Arman Moghadam D, Barati M, Hekmatdoost A (2022). "Levels of evidence for the association between different food groups/items consumption and the risk of various cancer sites: an umbrella review". Int J Food Sci Nutr. 73 (7): 861–874. doi:10.1080/09637486.2022.2103523. PMID 35920747. S2CID 251280745.
  4. ^ Stewart BW, Wild CP, eds. (2014). "Ch. 2: Cancer Etiology § 6 Diet, obesity and physical activity". World Cancer Report 2014. World Health Organization. pp. 124–33. ISBN 978-92-832-0429-9.
  5. ^ Vieira AR, Abar L, Chan DSM, Vingeliene S, Polemiti E, Stevens C, Greenwood D, Norat T. (2017). "Foods and beverages and colorectal cancer risk: a systematic review and meta-analysis of cohort studies, an update of the evidence of the WCRF-AICR Continuous Update Project". Annals of Oncology. 28 (8): 1788–1802. doi:10.1093/annonc/mdx171. hdl:10044/1/48313. PMID 28407090.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  6. ^ "Meat, fish, dairy and cancer risk". wcrf.org. Retrieved 24 April 2023.
  7. ^ "Red Meat and Processed Meat Consumption". progressreport.cancer.gov. Retrieved 24 April 2023.
  8. ^ "Red Meat (Beef, Pork, Lamb): Increases Risk of Colorectal Cancer". aicr.org. Retrieved 24 April 2023.
  9. ^ a b c Park S, Bae J, Nam BH, Yoo KY (2008). "Aetiology of cancer in Asia" (PDF). Asian Pacific Journal of Cancer Prevention. 9 (3): 371–380. PMID 18990005.
  10. ^ a b Yu C, Cao Q, Chen P, Yang S, Deng M, Wang Y, Li L (December 2016). "An updated dose-response meta-analysis of coffee consumption and liver cancer risk". Scientific Reports. 6 (1): 37488. Bibcode:2016NatSR...637488Y. doi:10.1038/srep37488. PMC 5133591. PMID 27910873.
  11. ^ Brenner H, Rothenbacher D, Arndt V (2009). "Epidemiology of Stomach Cancer". In Mukesh V (ed.). Cancer Epidemiology. Methods in Molecular Biology. Vol. 472. pp. 467–477. doi:10.1007/978-1-60327-492-0_23. ISBN 978-1-60327-491-3. PMC 2166976. PMID 19107449.
  12. ^ "Preventing Cancer". hsph.harvard.edu. Retrieved 24 April 2023.
  13. ^ "A healthy diet alone will not cure cancer". National Academies of Sciences, Engineering, and Medicine. 2024. Archived from the original on April 28, 2024.
  14. ^ Ilerhunmwuwa NP, Abdul Khader AHS, Smith C, Cliff ERS, Booth CM, Hottel E, Aziz M, Lee-Smith W, Goodman A, Chakraborty R, Mohyuddin GR. (2024). "Dietary interventions in cancer: a systematic review of all randomized controlled trials". Journal of the National Cancer Institute. 116 (7): 1026–1034. doi:10.1093/jnci/djae051. PMC 11223872. PMID 38429997.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  15. ^ Grimes DR, O'Riordan E (November 2023). "Starving cancer and other dangerous dietary misconceptions". Lancet Oncol. 24 (11): 1177–1178. doi:10.1016/S1470-2045(23)00483-7. PMID 37922928.
  16. ^ Hübner J, Marienfeld S, Abbenhardt C, Ulrich CM, Löser C (November 2012). "[How useful are diets against cancer?]". Deutsche Medizinische Wochenschrift. 137 (47): 2417–2422. doi:10.1055/s-0032-1327276. PMID 23152069. S2CID 76124925.
  17. ^ Edefonti V, Randi G, La Vecchia C, Ferraroni M, Decarli A (June 2009). "Dietary patterns and breast cancer: a review with focus on methodological issues". Nutrition Reviews. 67 (6): 297–314. doi:10.1111/j.1753-4887.2009.00203.x. PMID 19519672.
  18. ^ Brennan SF, Cantwell MM, Cardwell CR, Velentzis LS, Woodside JV (May 2010). "Dietary patterns and breast cancer risk: a systematic review and meta-analysis". The American Journal of Clinical Nutrition. 91 (5): 1294–1302. doi:10.3945/ajcn.2009.28796. PMID 20219961.
  19. ^ Grosso G, Bella F, Godos J, Sciacca S, Del Rio D, Ray S, Galvano F, Giovannucci EL. (2017). "Possible role of diet in cancer: systematic review and multiple meta-analyses of dietary patterns, lifestyle factors, and cancer risk". Nutrition Reviews. 75 (6): 405–419. doi:10.1093/nutrit/nux012. PMID 28969358.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  20. ^ Fung, Teresa; Hu, Frank B.; Fuchs, Charles; Giovannucci, Edward; Hunter, David J.; Stampfer, Meir J.; Colditz, Graham A.; Willett, Walter C. (2003-02-10). "Major Dietary Patterns and the Risk of Colorectal Cancer in Women". Archives of Internal Medicine. 163 (3): 309–14. doi:10.1001/archinte.163.3.309. PMID 12578511.
  21. ^ Fabiani, Roberto; Minelli, Liliana; Bertarelli, Gaia; Bacci, Silvia (2016-10-12). "A Western Dietary Pattern Increases Prostate Cancer Risk: A Systematic Review and Meta-Analysis". Nutrients. 8 (10): 626. doi:10.3390/nu8100626. PMC 5084014. PMID 27754328.
  22. ^ Jalilpiran, Y; Dianatinasab, M; Zeighami, S; Bahmanpour, S; Ghiasvand, R; Mohajeri, SAR; Faghih, S (August–September 2018). "Western Dietary Pattern, But not Mediterranean Dietary Pattern, Increases the Risk of Prostate Cancer". Nutrition and Cancer. 70 (6): 851–859. doi:10.1080/01635581.2018.1490779. PMID 30235016. S2CID 52308508.
  23. ^ Entwistle MR, Schweizer D, Cisneros R (November 2021). "Dietary patterns related to total mortality and cancer mortality in the United States". Cancer Causes Control. 32 (11): 1279–1288. doi:10.1007/s10552-021-01478-2. PMC 8492557. PMID 34382130.
  24. ^ Sánchez-Zamorano, Luisa María; Flores-Luna, Lourdes; Angeles-Llerenas, Angélica; Ortega-Olvera, Carolina; Lazcano-Ponce, Eduardo; Romieu, Isabelle; Mainero-Ratchelous, Fernando; Torres-Mejía, Gabriela (August 2016). "The Western dietary pattern is associated with increased serum concentrations of free estradiol in postmenopausal women: implications for breast cancer prevention". Nutrition Research. 36 (8): 845–854. doi:10.1016/j.nutres.2016.04.008. PMID 27440539.
  25. ^ Brennan, S. F.; Cantwell, M. M.; Cardwell, C. R.; Velentzis, L. S.; Woodside, J. V. (10 March 2010). "Dietary patterns and breast cancer risk: a systematic review and meta-analysis". American Journal of Clinical Nutrition. 91 (5): 1294–1302. doi:10.3945/ajcn.2009.28796. PMID 20219961.
  26. ^ Sofi F, Cesari F, Abbate R, Gensini GF, Casini A (2008). "Adherence to Mediterranean diet and health status: meta-analysis". BMJ (Clinical Research Ed.). 337 (sep11 2): a1344. doi:10.1136/bmj.a1344. PMC 2533524. PMID 18786971.
  27. ^ Schwingshackl, L; Hoffmann, G (15 October 2014). "Adherence to Mediterranean diet and risk of cancer: a systematic review and meta-analysis of observational studies". International Journal of Cancer. 135 (8): 1884–97. doi:10.1002/ijc.28824. PMID 24599882. S2CID 10389033.
  28. ^ Dinu, M; Pagliai, G; Casini, A; Sofi, F (10 May 2017). "Mediterranean diet and multiple health outcomes: an umbrella review of meta-analyses of observational studies and randomised trials". European Journal of Clinical Nutrition. 72 (1): 30–43. doi:10.1038/ejcn.2017.58. hdl:2158/1081996. PMID 28488692. S2CID 7702206.
  29. ^ Morze J, Danielewicz A, Przybyłowicz K (2021). "An updated systematic review and meta-analysis on adherence to mediterranean diet and risk of cancer". European Journal of Nutrition. 60 (3): 1561–1586. doi:10.1007/s00394-020-02346-6. PMC 7987633. PMID 32770356.
  30. ^ National Institute on Alcohol Abuse and Alcoholism (NIAAA) (July 1993). "Alcohol and Cancer". Alcohol Alert. 21: PH 345. Archived from the original on 2005-12-23.
  31. ^ Boffetta P, Hashibe M, La Vecchia C, Zatonski W, Rehm J (August 2006). "The burden of cancer attributable to alcohol drinking". International Journal of Cancer. 119 (4): 884–887. doi:10.1002/ijc.21903. hdl:2434/22728. PMID 16557583. S2CID 14938863.
  32. ^ Seitz HK, Pelucchi C, Bagnardi V, La Vecchia C (May–June 2012). "Epidemiology and pathophysiology of alcohol and breast cancer: Update 2012". Alcohol and Alcoholism. 47 (3): 204–212. doi:10.1093/alcalc/ags011. PMID 22459019.
  33. ^ Marmot M, Atinmo T, Byers T, Chen J, Hirohata T, Jackson A, et al. (2007). "Ch. 4: Food and Drinks §8: Alcoholic drinks" (PDF). Food, Nutrition, Physical Activity, and the Prevention of Cancer: A Global Perspective (PDF). World Cancer Research Fund / American Institute for Cancer Research (AICR) Expert Reports. Vol. 2. Washington, DC: AICR. pp. 157–71. ISBN 978-0-9722522-2-5. Archived from the original (PDF) on 2016-05-07. Retrieved 2014-08-29.
  34. ^ Su LJ, Arab L (2004). "Alcohol consumption and risk of colon cancer: evidence from the national health and nutrition examination survey I epidemiologic follow-up study". Nutrition and Cancer. 50 (2): 111–119. doi:10.1207/s15327914nc5002_1. PMID 15623458. S2CID 25461607.
  35. ^ Cho E, Smith-Warner SA, Ritz J, van den Brandt PA, Colditz GA, Folsom AR, et al. (April 2004). "Alcohol intake and colorectal cancer: a pooled analysis of 8 cohort studies". Annals of Internal Medicine. 140 (8): 603–613. doi:10.7326/0003-4819-140-8-200404200-00007. PMID 15096331. S2CID 37915731.
  36. ^ Voigt MD (February 2005). "Alcohol in hepatocellular cancer". Clinics in Liver Disease. 9 (1): 151–169. doi:10.1016/j.cld.2004.10.003. PMID 15763234.
  37. ^ Benedetti A, Parent ME, Siemiatycki J (2009). "Lifetime consumption of alcoholic beverages and risk of 13 types of cancer in men: results from a case-control study in Montreal". Cancer Detection and Prevention. 32 (5–6): 352–362. doi:10.1016/j.canep.2009.03.001. PMID 19588541.
  38. ^ Bagnardi V, Blangiardo M, La Vecchia C, Corrao G (2001). "Alcohol consumption and the risk of cancer: a meta-analysis". Alcohol Research & Health. 25 (4): 263–270. PMC 6705703. PMID 11910703. Archived from the original on 2019-06-20. Retrieved 2012-11-25.
  39. ^ Berrino F, Grant M, Griciute L, Holmberg B, McMichael AJ, Møller-Jensen O, et al. (IARC Working Group on the Evaluation of Carcinogenic Risks to Humans: Alcohol Drinking) (1988). "Ch. 6: Summary of Data Reported and Evaluation §5: Evaluation" (PDF). Alcohol Drinking. IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. Vol. 44. Lyon: International Agency for Research on Cancer (IARC): World Health Organization. pp. 258–9. ISBN 978-92-832-1244-7.
  40. ^ Keum N, Lee DH, Marchand N, Oh H, Liu H, Aune D, Greenwood DC, Giovannucci EL (2015). "Egg intake and cancers of the breast, ovary and prostate: a dose-response meta-analysis of prospective observational studies". British Journal of Nutrition. 114 (7): 1099–107. doi:10.1017/S0007114515002135. hdl:10044/1/48759. PMID 26293984. S2CID 31168561.
  41. ^ Zeng ST, Guo L, Liu SK, et al. (2015). "Egg consumption is associated with increased risk of ovarian cancer: Evidence from a meta-analysis of observational studies". Clinical Nutrition. 34 (4): 635–641. doi:10.1016/j.clnu.2014.07.009. PMID 25108572.
  42. ^ Aminianfar A, Fallah-Moshkani R, Salari-Moghaddam A, et al. (2019). "Egg Consumption and Risk of Upper Aero-Digestive Tract Cancers: A Systematic Review and Meta-Analysis of Observational Studies". Advances in Nutrition. 10 (4): 660–672. doi:10.1093/advances/nmz010. PMC 6628841. PMID 31041448.
  43. ^ Kazemi A, Barati-Boldaji R, Soltani S, et al. (2021). "Intake of Various Food Groups and Risk of Breast Cancer: A Systematic Review and Dose-Response Meta-Analysis of Prospective Studies". Advances in Nutrition. 12 (3): 809–849. doi:10.1093/advances/nmaa147. PMC 8166564. PMID 33271590.
  44. ^ Tanha K, Mottaghi A, Nojomi M, Moradi M, Rajabzadeh R, Lotfi S, Janani L (2021). "Investigation on factors associated with ovarian cancer: an umbrella review of systematic review and meta-analyses". Journal of Ovarian Research. 14 (1): 153. doi:10.1186/s13048-021-00911-z. PMC 8582179. PMID 34758846.
  45. ^ "Does eating processed and red meat cause cancer?". Cancer Research UK. 25 June 2019. Retrieved 30 December 2022.
  46. ^ "Red Meat (Beef, Pork, Lamb): Increases Risk of Colorectal Cancer". American Institute for Cancer Research. Retrieved 30 December 2022.
  47. ^ "Limit red and processed meat". WCRF International. Retrieved 30 December 2022.
  48. ^ Rock, Cheryl L.; Thomson, Cynthia; Gansler, Ted; Gapstur, Susan M.; McCullough, Marjorie L.; Patel, Alpa V.; Andrews, Kimberly S.; Bandera, Elisa V.; Spees, Colleen K.; Robien, Kimberly; Hartman, Sheri; Sullivan, Kristen; Grant, Barbara L.; Hamilton, Kathryn K.; Kushi, Lawrence H.; Caan, Bette J.; Kibbe, Debra; Black, Jessica Donze; Wiedt, Tracy L.; McMahon, Catherine; Sloan, Kirsten; Doyle, Colleen (2020). "American Cancer Society guideline for diet and physical activity for cancer prevention". CA. 70 (4): 245–271. doi:10.3322/caac.21591. PMID 32515498. S2CID 219550658.
  49. ^ a b Staff (October 26, 2015). "World Health Organization - IARC Monographs evaluate consumption of red meat and processed meat" (PDF). International Agency for Research on Cancer. Retrieved October 26, 2015.
  50. ^ Farvid MS, Sidahmed E, Spence ND, Mante Angua K, Rosner BA, Barnett JB. (2021). "Consumption of red meat and processed meat and cancer incidence: a systematic review and meta-analysis of prospective studies". European Journal of Epidemiology. 36 (9): 937–951. doi:10.1007/s10654-021-00741-9. PMID 34455534. S2CID 237343954.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  51. ^ Sivasubramanian BP, Dave M, Panchal V, Saifa-Bonsu J, Konka S, Noei F, Nagaraj S, Terpari U, Savani P, Vekaria PH, Samala Venkata V, Manjani L. (2023). "Comprehensive Review of Red Meat Consumption and the Risk of Cancer". Cureus. 15 (9): e45324. doi:10.7759/cureus.45324. PMC 10577092. PMID 37849565.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  52. ^ Barsouk, Adam; Aluru, John Sukumar; Rawla, Prashanth; Saginala, Kalyan; Barsouk, Alexander (2023-06-13). "Epidemiology, Risk Factors, and Prevention of Head and Neck Squamous Cell Carcinoma". Medical Sciences. 11 (2): 42. doi:10.3390/medsci11020042. ISSN 2076-3271. PMC 10304137. PMID 37367741.
  53. ^ "Diet, Nutrition, Physical Activity and Cancer: A Global Perspective". wcrf.org. Retrieved 14 February 2023. "There is strong evidence, mostly from Asia, that consuming foods preserved by salting (including salt-preserved vegetables, fish and salt-preserved foods in general) is a cause of stomach cancer."
  54. ^ "Meat, fish and dairy products and the risk of cancer". wcrf.org. Retrieved 14 February 2023.
  55. ^ "Known and Probable Human Carcinogens". cancer.org. Retrieved 14 February 2023.
  56. ^ "Agents classified by the IARC Monographs". monographs.iarc.who.int. Retrieved 14 February 2023.
  57. ^ "Wholegrains, vegetables, fruit and cancer risk". wcrf.org. Retrieved 13 April 2023.
  58. ^ a b "Wholegrains, vegetables and fruit and the risk of cancer". wcrf.org. Retrieved 13 April 2023.
  59. ^ Farvid MS, Spence ND, Holmes MD, Barnett JB (July 2020). "Fiber consumption and breast cancer incidence: A systematic review and meta-analysis of prospective studies". Cancer. 126 (13): 3061–3075. doi:10.1002/cncr.32816. PMID 32249416. S2CID 214809009.
  60. ^ Jayedi A, Emadi A, Khan TA, Abdolshahi A, Shab-Bidar S (2020). "Dietary Fiber and Survival in Women with Breast Cancer: A Dose-Response Meta-Analysis of Prospective Cohort Studies". Nutrition and Cancer. 73 (9): 1570–1580. doi:10.1080/01635581.2020.1803928. PMID 32795218. S2CID 221132662.
  61. ^ Sun L, Liang X (2021). "Fruit consumption and multiple health outcomes: An umbrella review". Trends in Food Science & Technology. 118: 505–528. doi:10.1016/j.tifs.2021.09.023. S2CID 244212291.
  62. ^ Farvid MS, Barnett JB, Spence ND (2021). "Fruit and vegetable consumption and incident breast cancer: a systematic review and meta-analysis of prospective studies". Br J Cancer. 125 (2): 284–298. doi:10.1038/s41416-021-01373-2. PMC 8292326. PMID 34006925.
  63. ^ Yiallourou A, Pantavou K, Markozannes G, Pilavas A, Georgiou A, Hadjikou A, Economou M, Christodoulou N, Letsos K, Khattab E, Kossyva C, Constantinou M, Theodoridou M, Piovani D, Tsilidis KΚ, Bonovas S, Nikolopoulos GK. (2024). "Non-genetic factors and breast cancer: an umbrella review of meta-analyses". BMC Cancer. 24 (1): 903. doi:10.1186/s12885-024-12641-8. PMC 11282738. PMID 39061008.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  64. ^ "List of Classifications – IARC Monographs on the Identification of Carcinogenic Hazards to Humans". monographs.iarc.who.int. Retrieved 2024-06-16.
  65. ^ a b c Islami, F (2009). "Pickled vegetables and the risk of oesophageal cancer: a meta-analysis". British Journal of Cancer. 101 (9): 1641–1647. doi:10.1038/sj.bjc.6605372. PMC 2778505. PMID 19862003.
  66. ^ Poorolajal, Jalal; Moradi, Leila; Mohammadi, Younes; Cheraghi, Zahra; Gohari-Ensaf, Fatemeh (2020). "Risk factors for stomach cancer: a systematic review and meta-analysis". Epidemiology and Health. 42: e2020004. doi:10.4178/epih.e2020004. ISSN 2092-7193. PMC 7056944. PMID 32023777.
  67. ^ Li, MH; Ji, C; Cheng, SJ (1986). "Occurrence of nitroso compounds in fungi-contaminated foods: A review". Nutrition and Cancer. 8 (1): 63–69. doi:10.1080/01635588609513877. PMID 3520493.
  68. ^ Liu, J. G.; Li, M. H. (1989). "Roussin red methyl ester, a tumor promoter isolated from pickled vegetables". Carcinogenesis. 10 (3): 617–620. doi:10.1093/carcin/10.3.617. PMID 2494003.
  69. ^ Yong, SK; Ha, TC; Yeo, MC; Gaborieau, V; McKay, JD; Wee, J (7 January 2017). "Associations of lifestyle and diet with the risk of nasopharyngeal carcinoma in Singapore: a case-control study". Chinese Journal of Cancer. 36 (1): 3. doi:10.1186/s40880-016-0174-3. PMC 5219694. PMID 28063457.
  70. ^ "Study: Salted vegetables increase risk of nose cancer". 16 January 2017. Retrieved 15 February 2018.
  71. ^ "Health". Archived from the original on 23 April 2017. Retrieved 15 February 2018.
  72. ^ Spencer JP (May 2008). "Flavonoids: modulators of brain function?". The British Journal of Nutrition. 99 E Suppl 1 (E Suppl 1): ES60–ES77. doi:10.1017/S0007114508965776. PMID 18503736.
  73. ^ Romagnolo DF, Selmin OI (2012). "Flavonoids and cancer prevention: a review of the evidence". Journal of Nutrition in Gerontology and Geriatrics. 31 (3): 206–238. doi:10.1080/21551197.2012.702534. PMID 22888839. S2CID 205960210.
  74. ^ Jin H, Leng Q, Li C (August 2012). "Dietary flavonoid for preventing colorectal neoplasms". Colorectal Cancer Group. The Cochrane Database of Systematic Reviews. 8 (8): CD009350. doi:10.1002/14651858.CD009350.pub2. PMC 11457294. PMID 22895989.
  75. ^ a b Cavuoto P, Fenech MF (October 2012). "A review of methionine dependency and the role of methionine restriction in cancer growth control and life-span extension". Cancer Treatment Reviews. 38 (6): 726–736. doi:10.1016/j.ctrv.2012.01.004. PMID 22342103.
  76. ^ Wei DH, Mao QQ (2020). "Vitamin B6, vitamin B12 and methionine and risk of pancreatic cancer: a meta-analysis". Nutrition Journal. 19 (1): 111. doi:10.1186/s12937-020-00628-7. PMC 7534168. PMID 33012287.
  77. ^ Van Puyvelde H, Dimou N, Katsikari A, Indave Ruiz BI, Godderis L, Huybrechts I, De Bacquer D. (2023). "The association between dietary intakes of methionine, choline and betaine and breast cancer risk: A systematic review and meta-analysis". Cancer Epidemiol. 83: 102322. doi:10.1016/j.canep.2023.102322. PMID 36701983. S2CID 256295811.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  78. ^ "Mushrooms in cancer treatment § Mushrooms and cancer". www.cancerresearchuk.org. Cancer Research UK. 30 January 2013. Archived from the original on 2014-07-08.
  79. ^ Ba DM, Ssentongo P, Beelman RB, Muscat J, Gao X, Richie JP (2020). "Mushroom Consumption Is Associated with Low Risk of Cancer: A Systematic Review and Meta-Analysis of Observation Studies". Current Developments in Nutrition. 4 (2): 307. doi:10.1093/cdn/nzaa044_006. PMC 7258270.
  80. ^ a b Clinton SK, Giovannucci EL, Hursting SD (2020). "The World Cancer Research Fund/American Institute for Cancer Research Third Expert Report on Diet, Nutrition, Physical Activity, and Cancer: Impact and Future Directions". The Journal of Nutrition. 150 (4): 663–671. doi:10.1093/jn/nxz268. PMC 7317613. PMID 31758189.
  81. ^ a b "Meat, fish and dairy products and the risk of cancer". wcrf.org. Retrieved 24 January 2023.
  82. ^ a b "Information sheet: Dairy foods and cancer". cancer.org.au. Retrieved 24 January 2023.
  83. ^ "Can milk and dairy products cause cancer?". cancerresearchuk.org. Retrieved 24 January 2023.
  84. ^ "Diet, nutrition, physical activity and prostate cancer". wcrf.org. Retrieved 24 January 2023.
  85. ^ "Which foods might increase my risk of prostate cancer?". prostatecanceruk.org. Retrieved 24 January 2023.
  86. ^ "American Cancer Society Guideline for Diet and Physical Activity". cancer.org. Retrieved 24 January 2023.
  87. ^ Harrison S, Lennon R, Holly J, Higgins JP, Gardner M, Perks C, Gaunt T, Tan V, Borwick C, Emmet P, Jeffreys M, Northstone K, Rinaldi S, Thomas S, Turner SD, Pease A, Vilenchick V, Martin RM, Lewis SJ (2017). "Does milk intake promote prostate cancer initiation or progression via effects on insulin-like growth factors (IGFs)? A systematic review and meta-analysis". Cancer Causes Control. 28 (6): 497–528. doi:10.1007/s10552-017-0883-1. PMC 5400803. PMID 28361446.
  88. ^ a b "Statement on possible carcinogenic hazard to consumers from insulin-like growth factor-1 (IGF-1) in the diet. assets.publishing.service.gov.uk. Retrieved 4 February 2023.
  89. ^ "Non-Technical Summary of Statement on possible carcinogenic hazard to consumers from insulin-like growth factor-1 (IGF-1) in the diet". assets.publishing.service.gov.uk. Retrieved 4 February 2023.
  90. ^ Jeyaraman, Maya M; Abou-Setta, Ahmed M; Grant, Laurel; Farshidfar, Farnaz; Copstein, Leslie; Lys, Justin; Gottschalk, Tania; Desautels, Danielle; Czaykowski, Piotr; Pitz, Marshall; Zarychanski, Ryan (2019). "Dairy product consumption and development of cancer: an overview of reviews". BMJ Open. 9 (1): e023625. doi:10.1136/bmjopen-2018-023625. ISSN 2044-6055. PMC 6352799. PMID 30782711.
  91. ^ Papadimitriou N, Markozannes G, Kanellopoulou A, Critselis E, Alhardan S, Karafousia V, Kasimis JC, Katsaraki C, Papadopoulou A, Zografou M, Lopez DS, Chan DS, Kyrgiou M, Ntzani E, Cross AJ, Marrone MT, Platz EA, Gunter MJ, Tsilidis KK (2021). "An umbrella review of the evidence associating diet and cancer risk at 11 anatomical sites". Nature Communications. 12 (1): 4579. Bibcode:2021NatCo..12.4579P. doi:10.1038/s41467-021-24861-8. PMC 8319326. PMID 34321471.
  92. ^ Zhang K, Dai H, Liang W, Zhang L, Deng Z (2019). "Fermented dairy foods intake and risk of cancer". Int J Cancer. 144 (9): 2099–2108. doi:10.1002/ijc.31959. PMID 30374967. S2CID 53114731.
  93. ^ Arafat HM, Omar J, Shafii N, Naser IA, Al Laham NA, Muhamad R, Al-Astani TA, Shaqaliah AJ, Shamallakh OM, Shamallakh KM, Abusalah MA (2023). "The association between breast cancer and consumption of dairy products: a systematic review". Ann Med. 55 (1): 2198256. doi:10.1080/07853890.2023.2198256. PMC 10120447. PMID 37078247.
  94. ^ "Cancer Diets: Myths and More". British Dietetic Association. 2024. Archived from the original on July 26, 2024.
  95. ^ "Can milk and dairy products cause cancer?". Cancer Research UK. 2024. Archived from the original on October 26, 2024.
  96. ^ Clinton SK, Giovannucci EL, Hursting SD (2020). "The World Cancer Research Fund/American Institute for Cancer Research Third Expert Report on Diet, Nutrition, Physical Activity, and Cancer: Impact and Future Directions". The Journal of Nutrition. 150 (4): 663–671. doi:10.1093/jn/nxz268. PMC 7317613. PMID 31758189.
  97. ^ Papadimitriou N, Markozannes G, Kanellopoulou A, Critselis E, Alhardan S, Karafousia V, Kasimis JC, Katsaraki C, Papadopoulou A, Zografou M, Lopez DS, Chan DS, Kyrgiou M, Ntzani E, Cross AJ, Marrone MT, Platz EA, Gunter MJ, Tsilidis KK (2021). "An umbrella review of the evidence associating diet and cancer risk at 11 anatomical sites". Nature Communications. 12 (1): 4579. Bibcode:2021NatCo..12.4579P. doi:10.1038/s41467-021-24861-8. PMC 8319326. PMID 34321471.
  98. ^ Zhang XF, Wang XK, Tang YJ, Guan XX, Guo Y, Fan JM, Cui LL (2021). "Association of whole grains intake and the risk of digestive tract cancer: a systematic review and meta-analysis". Nutrition Journal. 19 (1): 52. doi:10.1186/s12937-020-00556-6. PMC 7271550. PMID 32493399.
  99. ^ Xia, H; Ma, S; Wang, S; Sun, G. (2015). "Meta-Analysis of Saturated Fatty Acid Intake and Breast Cancer Risk". Medicine. 94 (52): e2391. doi:10.1097/MD.0000000000002391. PMC 5291630. PMID 26717389.
  100. ^ Brennan, SF; Woodside, JV; Lunny, PM; Cardwell, CR; Cantwell, MM. (2017). "Dietary fat and breast cancer mortality: A systematic review and meta-analysis". Critical Reviews in Food Science and Nutrition. 57 (10): 1999–2008. doi:10.1080/10408398.2012.724481. PMID 25692500. S2CID 34098509.
  101. ^ Dandamudi, A; Tommie, J; Nommsen-Rivers, L; Couch, S. (2018). "Dietary Patterns and Breast Cancer Risk: A Systematic Review". Anticancer Research. 38 (6): 3209–3222. doi:10.21873/anticanres.12586. PMID 29848668. S2CID 44149964.
  102. ^ Gathirua-Mwangi, Wambui G.; Zhang, Jianjun (2014). "Dietary factors and risk for advanced prostate cancer". European Journal of Cancer Prevention. 23 (2): 96–109. doi:10.1097/CEJ.0b013e3283647394. PMC 4091618. PMID 23872953.
  103. ^ "Common Questions About Diet, Activity, and Cancer Risk". www.cancer.org. American Cancer Society. 2022. Archived from the original on 2024-02-01.
  104. ^ Shin S, Fu J, Shin WK, Huang D, Min S, Kang D. (2023). "Association of food groups and dietary pattern with breast cancer risk: A systematic review and meta-analysis". Clinical Nutrition. 42 (3): 282–297. doi:10.1016/j.clnu.2023.01.003. PMID 36731160. S2CID 255889638.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  105. ^ Filippini T, Malavolti M, Borrelli F, Izzo AA, Fairweather-Tait SJ, Horneber M, Vinceti M (March 2020). "Green tea (Camellia sinensis) for the prevention of cancer". The Cochrane Database of Systematic Reviews. 3 (11): CD005004. doi:10.1002/14651858.CD005004.pub3. PMC 7059963. PMID 32118296.
  106. ^ "Green Tea". www.cancer.org. American Cancer Society. 4 May 2012. Archived from the original on 2014-08-26.
  107. ^ Zhao LG, Li ZY, Feng GS, Ji XW, Tan YT, Li HL, et al. (March 2021). "Tea Drinking and Risk of Cancer Incidence: A Meta-Analysis of Prospective Cohort Studies and Evidence Evaluation". Advances in Nutrition. 12 (2): 402–412. doi:10.1093/advances/nmaa117. PMC 8009746. PMID 33002099.
  108. ^ Zhao LG, Li ZY, Feng GS, Ji XW, Tan YT, Li HL, et al. (February 2020). "Coffee drinking and cancer risk: an umbrella review of meta-analyses of observational studies". BMC Cancer. 20 (1): 101. doi:10.1186/s12885-020-6561-9. PMC 7003434. PMID 32024485.
  109. ^ Bjelakovic G, Gluud LL, Nikolova D, Whitfield K, Krstic G, Wetterslev J, Gluud C (June 2014). "Vitamin D supplementation for prevention of cancer in adults". Metabolic and Endocrine Disorders Group. The Cochrane Database of Systematic Reviews. 2014 (6): CD007469. doi:10.1002/14651858.CD007469.pub2. PMC 11285304. PMID 24953955.
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