Dietary Fat, Eicosanoids and Breast Cancer Risk

Not Applicable

Completed

Conditions: Breast Cancer

Interventions: Other: Low Fat diet
Other: Low Fat high n3 diet
Other: High Fat Diet

Registration Number: NCT01824498

Lead Sponsor: USDA Grand Forks Human Nutrition Research Center

Brief Summary: The primary objective of this investigation is to determine whether diets designed to increase plasma n3 concentrations (a low fat diet, with or without n3 fatty acid enrichment), will favorably affect sex hormone distribution in women in a direction associated with reduced risk of sex hormone-mediated cancer development. Specifically, we hypothesize that an increased concentration of circulating n3 fatty acids will reduce the biochemical markers associated with increased risk for developing certain sex hormone mediated cancers such as breast cancer

Detailed Description: The guiding concept of our proposal is that both the total fat and the fatty acid composition of the diet contribute to a milieu associated with the risk for sex-hormone mediated cancers. Specifically, we hypothesize that an increased concentration of circulating n3 fatty acids will reduce the biochemical markers associated with increased risk for developing certain sex hormone mediated cancers such as breast cancer. When compared with the high fat diet, we expect n3 concentrations to increase and sex hormone levels to decrease after both low fat and low fat/n3 rich diets, with the greatest response in the low fat-n3 supplemented group. The aims of this project are: 1) to evaluate the effects of total fat and n3 fatty acid consumption on plasma and urine sex hormone concentrations in postmenopausal women, 2) to evaluate the relationship between plasma concentrations of fatty acids and plasma and urinary sex hormone concentrations, and 3) to evaluate the effects of total fat and n3 fatty acid consumption on the associations between sex hormone concentrations and urinary prostaglandin E2 and thromboxane B2 concentrations.

The primary objective of this investigation is to determine whether diets designed to increase plasma n3 concentrations (a low fat diet, with or without n3 fatty acid enrichment), will favorably affect sex hormone distribution in women in a direction associated with reduced risk of sex hormone-mediated cancer development. The primary endpoints to be evaluated include plasma and urinary sex hormone concentrations as follows:

Endpoints associates with increased risk factors for breast cancer risk: plasma estradiol (E2), estrone (E1), estrone sulfate (E1 sulfate), testosterone, androstenedione, sex hormone binding globulin (SHBG), dehydroepiandrosterone (DHEA), dehydroepiandrosterone sulfate (DHEAS), Measures of estrogen action: plasma follicle stimulating hormone (FSH), urinary estrogen metabolites.

Measures of systemic arachidonic acid-derived eicosanoids: urinary bicyclo-prostaglandin E2 (PGEa), 2,3-dinor thromboxane B2 (TXB2).

Measures reflecting influence of dietary fat and fatty acid intake: plasma phospholipid, cholesterol ester, triglyceride and free fatty acid composition.

Recruitment & Eligibility

Status: COMPLETED

Sex: Female

Target Recruitment: 18

Inclusion Criteria

Postmenopausal women
45 to 70 years old,
at least one year since their last menstrual period
not using hormone replacement therapy,
BMI between 19 -29
willingness to discontinue use of over-the-counter medications with anti-prostaglandin activity such as aspirin or non-steroidal anti-inflammatory medications
consumption of a "Typical " American diet with no unusual dietary practices such as compliance with a strict vegetarian diet
willingness to comply with the demands of the experimental protocol.

Exclusion Criteria

Smoking
Known disease process, and 3) Use of prescription medications, including hormone replacement therapy.

Study & Design

Study Type: INTERVENTIONAL

Study Design: CROSSOVER

Arm && Interventions

Group	Intervention	Description
Low Fat High Omega 3, High Fat, Low Fat	Low Fat diet	See Intervention Description
Low Fat, Low Fat High Omega 3, High Fat	Low Fat high n3 diet	See Intervention Description
High Fat, Low Fat, Low Fat High Omega 3	High Fat Diet	See Intervention Description
Low Fat, Low Fat High Omega 3, High Fat	Low Fat diet	See Intervention Description
Low Fat, Low Fat High Omega 3, High Fat	High Fat Diet	See Intervention Description
Low Fat High Omega 3, High Fat, Low Fat	Low Fat high n3 diet	See Intervention Description
Low Fat High Omega 3, Low Fat, High Fat	Low Fat high n3 diet	See Intervention Description
Low Fat High Omega 3, Low Fat, High Fat	High Fat Diet	See Intervention Description
Low Fat, High Fat, Low Fat High Omega 3	Low Fat high n3 diet	See Intervention Description
High Fat, Low fat High Omega 3, Low Fat	Low Fat high n3 diet	See Intervention Description
Low Fat, High Fat, Low Fat High Omega 3	Low Fat diet	See Intervention Description
Low Fat, High Fat, Low Fat High Omega 3	High Fat Diet	See Intervention Description
High Fat, Low Fat, Low Fat High Omega 3	Low Fat high n3 diet	See Intervention Description
High Fat, Low fat High Omega 3, Low Fat	Low Fat diet	See Intervention Description
High Fat, Low fat High Omega 3, Low Fat	High Fat Diet	See Intervention Description
Low Fat High Omega 3, High Fat, Low Fat	High Fat Diet	See Intervention Description
High Fat, Low Fat, Low Fat High Omega 3	Low Fat diet	See Intervention Description
Low Fat High Omega 3, Low Fat, High Fat	Low Fat diet	See Intervention Description