P.A.H. van Noord scite author profile

Objectives-To study the effect of body fat distribution in women ofreproductive age on fecundity.Design-Prospective cohort study of all women who had entered a donor insemination programme.Setting-One fertility clinic serving a large part of the midwest ofthe Netherlands.Subjects-Of 542 women attending the clinic for artificial insemination for the first time, 500 women were eligible for study.Main outcome measures-Probability of conception per cycle and number of insemination cycles before pregnancy or stopping treatment.Results-A 0a1 unit increase in waist-hip ratio led to a 300/u decrease in probability of conception per cycle (hazard ratio 0-706; 95% confidence interval 0 562 to 0 887) after adjustment for age, fatness, reasons for artificial insemination, cycle length and regularity, smoking, and parity. Increasing age was significantly related to lower fecundity (p < 0 05); very lean and obese women were less likely to conceive (p<0.10) as were women with subfertile partners (p < 0 10). All other exposure variables were not significantly related to fecundity.Conclusions-Increasing waist-hip ratio is negatively associated with the probability of conception per cycle, before and after adjustment for confounding factors. Body fat distribution in women of reproductive age seems to have more impact on fertility than age or obesity.

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Insulin resistance and breast‐cancer risk

Bruning

Bonfrèr

Noord

et al. 1992

Intl Journal of Cancer

328

189

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Life-style has a major influence on the incidence of breast cancer. To evaluate the effects of life-style related metabolic-endocrine factors on breast cancer risk we conducted a case-control study comparing 223 women aged 38 to 75 years presenting with operable (stage I or II) breast cancer and 441 women of the same age having no breast cancer, who participated in a population-based breast cancer screening program. Women reporting diabetes mellitus were excluded. Sera from 110 women of the same age group presenting with early stage melanoma, lymphoma or cervical cancer were used as a second 'other-cancer control group'. Serum levels of C-peptide were significantly higher in early breast cancer cases compared to controls. The same was found for the ratios C-peptide to glucose or C-peptide to fructosamine, indicating insulin resistance. Sex hormone binding globulin was inversely, triglycerides and available estradiol were positively related to C-peptide. Serum C-peptide levels were related to body mass index (BMI), and to waist/hip ratio (WHR), in particular in controls. However, the relative increase of C-peptide, C-peptide to glucose or C-peptide to fructosamine in cases was independent of BMI or WHR. The log relative risk was linearly related to the log C-peptide levels. Relative risk according to quintiles, and adjusted for age, family history, BMI and WHR, for women at the 80% level was 2.9 as compared with those at the 20% level for C-peptide. Elevated C-peptide or C-peptide to fructosamine values were not observed in the sera from women belonging to the 'other-cancer control group'. This study suggests that hyperinsulinemia with insulin resistance is a significant risk factor for breast cancer independent of general adiposity or body fat distribution.

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Age at natural menopause in a population-based screening cohort: the role of menarche, fecundity, and lifestyle factors

Noord

Dubas

Dorland

et al. 1997

Fertility and Sterility

322

158

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Measurements of Breast Density: No Ratio for a Ratio

et al. 2005

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Breast density, as visible on mammograms, is generally assessed as the occupied percentage of the breast and is a risk factor for breast cancer. Various studies have looked into the causation and alteration of relative density but the relation of a determinant with a relative measure does not allow a direct etiologic interpretation. It was our goal to compare the effects of known determinants on relative density and the absolute amounts of dense and nondense tissues. We measured the absolute and relative densities in a population of 418 postmenopausal women participating in a breast cancer screening program. The occupied surface area was calculated after manually tracing the contours of the tissues on digitized mammograms. Information on determinants was available through physical examination and questionnaires. Data were analyzed by multivariate linear regression. Age and parity were found to decrease the amount of dense tissue and the ages at menarche and menopause were found to increase it (R 2 = 13%). The amount of nondense tissue was increased by higher body mass index (BMI), age, and parity (R 2 = 43%). Relative density was affected by a combination of these factors (R 2 = 29%) with directionalities of effects that are comparable to those of dense tissue. However, the magnitudes of these effects were the resultant of the effects on dense and nondense tissues. The influence of BMI on relative density was completely due to an effect on nondense tissue. Although relative density is a relevant prognostic factor, inferences about the etiology of breast density should be made on the basis of absolute measures. (Cancer Epidemiol Biomarkers Prev 2005; 1411(11):2634

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P.A.H. van Noord

Fat and female fecundity: prospective study of effect of body fat distribution on conception rates.

Insulin resistance and breast‐cancer risk

Age at natural menopause in a population-based screening cohort: the role of menarche, fecundity, and lifestyle factors

Measurements of Breast Density: No Ratio for a Ratio

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