Literature DB >> 22642949

Interaction of nitrate and folate on the risk of breast cancer among postmenopausal women.

Maki Inoue-Choi1, Mary H Ward, James R Cerhan, Peter J Weyer, Kristin E Anderson, Kim Robien.   

Abstract

Ingested nitrate can be endogenously reduced to nitrite, which may form N-nitroso compounds, known potent carcinogens. However, some studies have reported no or inverse associations between dietary nitrate intake and cancer risk. These associations may be confounded by a protective effect of folate, which plays a vital role in DNA repair. We evaluated the interaction of dietary and water nitrate intake with total folate intake on breast cancer risk in the Iowa Women's Health Study. Dietary intake was assessed at study baseline. Nitrate intake from public water was assessed using a historical database on Iowa municipal water supplies. After baseline exclusions, 34,388 postmenopausal women and 2,875 incident breast cancers were included. Overall, neither dietary nor water nitrate was associated with breast cancer risk. Among those with folate intake ≥400 μg/day, breast cancer risk was significantly increased in public water users with the highest nitrate quintile (HR = 1.40, 95% CI = 1.05-1.87) and private well users (HR = 1.38, 95% CI = 1.05-1.82) compared to public water users with the lowest nitrate quintile; in contrast, there was no association among those with lower folate intake. Our findings do not support a previous report of increased risk of breast cancer among individuals with high dietary nitrate but low folate intake.

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Year:  2012        PMID: 22642949      PMCID: PMC3403733          DOI: 10.1080/01635581.2012.687427

Source DB:  PubMed          Journal:  Nutr Cancer        ISSN: 0163-5581            Impact factor:   2.900


  48 in total

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Review 3.  Does a high folate intake increase the risk of breast cancer?

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4.  Potent carcinogenicity of 2,7-dinitrofluorene, an environmental pollutant, for the mammary gland of female Sprague-Dawley rats.

Authors:  D Malejka-Giganti; G A Niehans; M A Reichert; K K Bennett; R L Bliss
Journal:  Carcinogenesis       Date:  1999-10       Impact factor: 4.944

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Authors:  H Bartsch; R Montesano
Journal:  Carcinogenesis       Date:  1984-11       Impact factor: 4.944

6.  Standard methods for the examination of water and waste water.

Authors:  F W Gilcreas
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Review 7.  Exposure of humans to endogenous N-nitroso compounds: implications in cancer etiology.

Authors:  H Bartsch; H Ohshima; D E Shuker; B Pignatelli; S Calmels
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Review 9.  Experimental evidence for inhibition of N-nitroso compound formation as a factor in the negative correlation between vitamin C consumption and the incidence of certain cancers.

Authors:  S S Mirvish
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10.  Tumorigenicity and genotoxicity of an environmental pollutant 2,7-dinitrofluorene after systemic administration at a low dose level to female rats.

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  11 in total

1.  Nitrate and nitrite ingestion and risk of ovarian cancer among postmenopausal women in Iowa.

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3.  Red and processed meat, nitrite, and heme iron intakes and postmenopausal breast cancer risk in the NIH-AARP Diet and Health Study.

Authors:  Maki Inoue-Choi; Rashmi Sinha; Gretchen L Gierach; Mary H Ward
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4.  Association between dietary nitrate and nitrite intake and sitespecific cancer risk: evidence from observational studies.

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6.  Impact of residential mobility on estimated environmental exposures in a prospective cohort of older women.

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7.  Plasma homocysteine levels and genetic polymorphisms in folate metablism are associated with breast cancer risk in chinese women.

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8.  Ingested Nitrate and Breast Cancer in the Spanish Multicase-Control Study on Cancer (MCC-Spain).

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Review 9.  Drinking Water Nitrate and Human Health: An Updated Review.

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Review 10.  Association between Dietary Nitrate, Nitrite Intake, and Site-Specific Cancer Risk: A Systematic Review and Meta-Analysis.

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