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Obesity, body fat distribution and breast cancer

Published online by Cambridge University Press:  19 February 2013

Julie A Lovegrove*
Affiliation:
Hugh Sinclair Unit of Human Nutrition, School of Food Biosciences, The University of Reading, PO Box 226, Whiteknights, Reading RG6 6AP, UK
*
Corresponding author: Dr J. A. Lovegrove, fax +44 118931 0080, email [email protected]. ac.uk
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Abstract

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Abstract Strong epidemiological data exists implicating anthropometric risk factors in breast cancer aetiology. In premenopausal women the risk of breast cancer increases with increased height, yet decreases with increasing weight and BMI. Although the evidence is not strong, a counter-intuitive positive relationship between central adiposity and premenopausal breast cancer risk is emerging. In post-menopausal women an increased risk in breast cancer has been found for all anthropometric measures: height, weight, BMI, measures of central adiposity (waist:hip ratio and waist circumference) and weight gain, with breast size being a possible additional risk factor. Weight loss as a strategy for reducing breast cancer risk seems to offer a viable prophylaxis in obese post-menopausal women, although data are limited. The evidence for anthropometric measures in relation to breast cancer risk is consistently stronger for post-menopausal women compared with premenopausal women and seems to be dependent on age. A number of possible biological mechanisms have been offered to explain the link between breast cancer risk and anthropometric measures. It has been hypothesised that obesity, especially central fat deposits, linked to insulin resistance, increases circulating hormones such as oestrogens, androgens, insulin, insulin-like growth factor-1 (IGF-1), and decreased levels of hormone-binding proteins such as steroid hormone-binding globulin and IGF-1 binding protein-1. Thus there are resulting increased concentrations of bioavailable sex hormones, which have been linked to increased breast cancer risk. As obesity is an important modifiable risk factor, which has been linked to increased post-menopausal breast cancer, public health recommendations to maintain ideal weight throughout life are warranted.

Type
Research Article
Copyright
Copyright © CABI Publishing 2002

References

Agurs-Collins, T, Adams-Campbell, LL, Kim, KS% & Cullen, KJ (2000) Insulin-like growth factor-1 and breast cancer risk in postmenopausal African-American women. Cancer Detection and Prevention 24, 199206.Google ScholarPubMed
Armellini, F, Zamboni, M, Perdichizzi, G, Greco, A, Napoli, N, Pandolfo, I, Mondello, G & Bosello, O (1996) Computed tomography visceral adipose tissue volume measurements of Italians. Predictive equations. European Journal of Clinical Nutrition 22, 719727.Google Scholar
Arner, P (1995) Differences in lipolysis between human subcutaneous and omental adipose tissue. Annals of Medicine 27, 435438.CrossRefGoogle Scholar
Ballard-Barbash, R (1994) Anthropometry and breast cancer. Cancer 74, 10901100.3.0.CO;2-X>CrossRefGoogle ScholarPubMed
Ballard-Barbash, R, Schatzkin, A, Carter, CL, Kannel, WB, Kreger, BE, D'Agostino, RB, Splansky, GL, Anderson, KM & Helsel, WE (1990) Body fat distribution and breast cancer in the Framingham study. Journal of the National Cancer Institute 82, 286290.CrossRefGoogle ScholarPubMed
Bergström, A, Pisani, P, Tenet, V, Wolk, A, & Adami, HO (2001) Overweight as an avoidable cause of cancer in Europe. International Journal of Cancer 91, 421430.3.0.CO;2-T>CrossRefGoogle ScholarPubMed
Bernstein, L & Ross, RK (1993) Endogenous hormones and breast cancer risk. Epidemiologic Reviews 15, 4865.CrossRefGoogle ScholarPubMed
Berrino, F, Muti, P, Micheli, A, Bolelli, G, Krough, V, Sciajno, R, Pisani, P, Panico, S & Secreto, G (1996) Serum sex hormone levels after menopause and subsequent breast cancer. Journal of the National Cancer Institute 88, 291296.CrossRefGoogle ScholarPubMed
Björntorp, P (1994) Fatty acids, hyperinsulinaemia and insulin resistance: which comes first? Current Opinions in Lipidology 5, 166174.CrossRefGoogle ScholarPubMed
Borrelli, R, Isernia, C, Di Biase, G & Contaldo, F (1988) Mortality rates, causes and preventative factors of death in severely obese patients. International Journal of Vitamin and Nutrition Research 58, 343350.Google Scholar
Brinton, LA & Swanson, CA (1992) Height and weight at various ages and risk of breast cancer. Annals of Epidemiology 2, 597609.CrossRefGoogle ScholarPubMed
Bruning, PF, Bonfrer, JMG, van Noord, PAH, Hart, AAM, de Jong-Bakker, M & Nooijen, WJ (1992) Insulin resistance and breast cancer risk. International Journal of Cancer 52, 511516.CrossRefGoogle ScholarPubMed
Bryan, RM, Mercer, RJ & Bennett, RC (1984) Androgen receptor in breast cancer. Cancer 54, 24362440.3.0.CO;2-H>CrossRefGoogle ScholarPubMed
Carroll, KK (1975) Experimental evidence of dietary factors and hormone-dependent cancers. Cancer Research 3, 253271.Google Scholar
Carroll, KK (1998) Obesity as a risk factor for certain types of cancers. Lipids 33, 10551059.CrossRefGoogle Scholar
Choi, NW, Howe, GR, Miller, AB, Matthews, V, Morgan, RW & Munan, L (1978) An epidemiological study of breast cancer. American Journal of Epidemiology 107, 510521.CrossRefGoogle Scholar
Cleary, MP & Maihle, NJ (1997) The role of body mass index in the relative risk of developing premenopausal versus postmenopausal breast cancer. Proceedings of the Society for Experimental Biology and Medicine 216, 2843.CrossRefGoogle ScholarPubMed
Clemmons, DR & Underwood, LE (1991) Nutritional regulation of IGF-I and IGF-binding proteins. Annual Reviews of Nutrition 11, 393412.CrossRefGoogle ScholarPubMed
Cohen, SM & Ellwein, LB (1990) Cell proliferation in carcinogenesis. Science 249, 10071011.CrossRefGoogle ScholarPubMed
Cold, S, Hansen, S, Overvad, K & Rose, C (1998) A women build and the risk of breast cancer. European Journal of Cancer 34, 11631174.CrossRefGoogle ScholarPubMed
De Leon, DD, Wilson, DM, Powers, M & Rosenfeld, RG (1992) Effects of insulin-like growth factors (IGFs) and IGF receptor antibodies on the proliferation of breast cancer cells. Growth Factors 6, 327336.CrossRefGoogle ScholarPubMed
Del Giudice, ME, Fantus, IG, Ezzat, S, Mckeown-Eyssen, G, Page, D & Goodwin, PJ (1998) Insulin and related factors in premenopausal breast cancer risk. Breast Cancer Research and Treatment 47, 111120.CrossRefGoogle ScholarPubMed
den Tonkelaar, I, Seidell, JC & Collette, JA (1995) Body fat distribution in relation to breast cancer in women participating in the DOM-project. Breast Cancer Research and Treatment 34, 5561.CrossRefGoogle ScholarPubMed
den, Tonkelaar|I, Seidell, JC, Collette, HJ & de Waard, F (1992) Obesity and subcutaneous fat patterning in relation to breast cancer in postmenopausal women participating in the Diagnostic Investigation of Mammary Cancer Project. Cancer 69, 26632667.Google Scholar
Department of Health (1998) Nutritional Aspects of the Development of Cancer. Report of the working group on diet and cancer of the committee on medical aspects of food and nutrition policy, on. 48. London: The Stationery Office.Google Scholar
De Pergola, G, Giorgino, F, Garruti, G, Cignarelli, M & Giorgino, R (1996) Rapporto tra variabili antropometriche, ormoni sessuali e complicanze dell'obesità (Report of variable anthropometric measurements, sex hormones and complications of obesity). Metabolismo Oggi 13, 138145.Google Scholar
De Waard, F, Baanders-van Halewijn, EA & Huizinga, J (1964) The bimodal age distribution of patients with mammary carcinoma. Cancer 17, 141151.3.0.CO;2-Z>CrossRefGoogle ScholarPubMed
Dorgan, JF, Longcope, C, Stephenson, HE, Falk, RT, Miller, R, Franz, C, Kahle, L, Campbell, WS, Tangrea, JA & Schatzkin, A (1996) Relation of prediagnostic serum estrogen and androgen levels to breast cancer risk. Cancer Epidemiology Biomarkers and Prevention 5, 533539.Google ScholarPubMed
Dunn, JF, Nisula, BC & Rodbard, D (1981) Transport of steroid hormones: binding of 21 endogenous steroids to both testosterone-binding globulin and corticosteroid-binding globulin in human plasma. Journal of Clinical Endocrinology and Metabolism 53, 5868.CrossRefGoogle ScholarPubMed
Dupont, WD & Page, DL (1987) Breast cancer risk associated with proliferative disease, age at first birth and a family history of breast cancer. American Journal of Epidemiology, 125, 769779.CrossRefGoogle Scholar
Ebling, P & Koivisto, VA (1994) Physiological importance of dehydroepiandrosterone. Lancet 343, 14791481.CrossRefGoogle Scholar
Egan, KM, Newcomb, PA, Titus-Ernstoff, L, Trentham-Dietz, A, Baron, JA, Willet, WC, Stampfer, MJ & Trichopoulos, D (1999) The relation of breast size to breast cancer risk in postmenopausal women (United States). Cancer Causes and Control 10, 115118.CrossRefGoogle ScholarPubMed
Evans, D, Hoffman, RG, Kalkhoff, RK & Kissebah, AH (1983) Relationship of androgenic activity to body fat topography, fat cell morphology, and metabolite aberrations in premenopausal women. Journal of Clinical Endocrinology and Metabolism 57, 304310.CrossRefGoogle Scholar
Evans, DJ, Barth, JH & Burke, CW (1988) Body fat topography in women with androgen excess. International Journal of Obesity 12, 157162.Google ScholarPubMed
Evans, DJ, Murray, R & Kissebah, AH (1984) Relationship between skeletal muscle insulin resistance, insulin mediated glucose disposal and insulin binding: effects of obesity and body fat topography. Journal of Clinical Investigation 74, 15151524.CrossRefGoogle ScholarPubMed
Fendri, S, Arlot, JM, Marcelli, A, Dubreuil, A & Lalau, JD (1994) Relationship between insulin sensitivity and circulating sex hormone-binding globulin levels in hyperandrogenic obese women. International Journal of Obesity 18, 755759.Google ScholarPubMed
Folsom, AR, Kaye, SA, Prineas, RJ, Potter, JD, Gapstur, SM & Wallace, RB (1990) Increased incidence of carcinoma of breast associated with abdominal adiposity in postmenopausal women. American Journal of Epidemiology 131, 794803.CrossRefGoogle ScholarPubMed
Folsom, AR, Kaye, SA, Sellers, TA, Hong, C-p, Cerhan, JR, Potter, JD & Prineas, RJ (1993) Body fat distribution and 5-year risk of death in older women. Journal of the American Medical Association 269, 483487.CrossRefGoogle ScholarPubMed
Franks, S, Kiddy, DS, Hamilton-Fairley, D, Bush, A, Sharp, PS & Reed, MJ (1991) The role of nutrition and insulin regulation of sex hormone binding globulin. Journal of Steroid Biochemistry and Molecular Biology 39, 835838.CrossRefGoogle ScholarPubMed
Frayn, KN (1993) Insulin resistance and lipid metabolism. Current Opinions in Lipidology 4, 197204.CrossRefGoogle Scholar
Friedenreich, CM (2001) Review of anthropometric factors and breast cancer risk. European Journal of Cancer Prevention 10, 1532.CrossRefGoogle ScholarPubMed
Groop, LC, Saloranta, C & Shank, M (1991) The role of free fatty acid metabolism in the pathogenesis of insulin resistance in obesity and non-insulin dependent diabetes mellitus. Journal of Clinical Endocrinology and Metabolism 72, 96107.CrossRefGoogle Scholar
Hall, HI, Coates, RJ, Uhler, RJ, Brinton, LA, Gammon, MD, Brogan, D, Potischman, N, Malone, KE & Swanson, CA (1999) Stage of breast cancer in relation to body mass index and bra cup size. International Journal of Cancer 82, 2327.3.0.CO;2-E>CrossRefGoogle ScholarPubMed
Hall, IJ, Newman, B, Millikan, RC & Moorman, PG (2000) Body size and breast cancer risk in black women and white women. American Journal of Epidemiology 151, 754764.CrossRefGoogle ScholarPubMed
Hankinson, SE, Willet, WC & Colditz, GA (1998) Circulating concentrations of insulin-like growth factor-I and risk of breast cancer. Lancet 351, 13931396.CrossRefGoogle ScholarPubMed
Henderson, BE, Ross, RK, Judd, HL, Krailo, MD & Pike, MC (1985) Do regular ovulatory cycles increase breast cancer risk. Cancer 56, 12061208.3.0.CO;2-9>CrossRefGoogle ScholarPubMed
Higgins, M, Kannel, W, Garrison, R, Pinsky, J & Stokes, J (1989) III Hazards of obesity – the Framingham experience. Acta Medica Scandinavica 723, Suppl., 2336.Google Scholar
Hislop, TG, Coldman, AJ, Elwood, JM, Grauer, G & Kan, L (1986) Childhood and recent eating patterns and risk of breast cancer. Cancer Detection and Prevention 9, 4758.Google ScholarPubMed
Holmberg, L, Ekbom, A, Calle, E, Mokdad, A & Byers, T (1997) Breast cancer mortality in relation to self-reported use of breast self-examination. A cohort study of 450 000 women. Breast Cancer Research and Treatment 43, 137140.CrossRefGoogle ScholarPubMed
House of Commons Public Accounts Committee (2002) House of Commons Public Accounts Committee Report on Tackling Obesity in England. House of Commons Paper no. 421. Session 2001/2002. 16 January 2002. London: The Stationery Office.Google Scholar
Hsieh, C & Trichopoulos, D (1991) Breast size, handedness and breast cancer risk. European Journal of Cancer 27, 131135.CrossRefGoogle ScholarPubMed
Huang, Z, Hankinson, SE & Willet, WC (1997) Dual effect of weight and weight gain on breast cancer risk. Journal of the American Medical Association 278, 14071411.CrossRefGoogle ScholarPubMed
Huang, Z, Willet, WC, Colditz, GA, Hunter, DJ, Manson, JE, Rosner, B, Speizer, FE & Hankinson, SE (1999) Waist circumference, waist:hip ratio, and risk of breast cancer in the Nurses’ Health Study. American Journal of Epidemiology 150, 13161324.CrossRefGoogle ScholarPubMed
Hunter, DJ, Spiegelman, D & Adami, H-O (1996) Cohort studies of fat intake and the risk of breast cancer – a pooled analysis. New England Journal of Medicine 334, 356361.CrossRefGoogle ScholarPubMed
Hunter, DJ & Willet, WC (1993) Diet, body size, and breast cancer. Epidemiology Reviews 15, 110131.CrossRefGoogle ScholarPubMed
Ingam, D, Nottage, E, Ng, S, Sparrow, L, Roberts, A & Willcox, D (1989) Obesity and breast disease. Cancer 64, 10491053.3.0.CO;2-M>CrossRefGoogle Scholar
Jones, BA, Kasl, SV, Curnen, MGM, Owens, PH & Dubrow, R (1997) Severe obesity as an explanatory factor for the black/white difference in stage at diagnosis of breast cancer. American Journal of Epidemiology 146, 394404.CrossRefGoogle ScholarPubMed
Kaaks, R (1996) Nutrition, hormones, and breast cancer: Is insulin the missing link? Cancer Causes and Control 7, 605625.CrossRefGoogle ScholarPubMed
Kaaks, R & Lukanova, A (2001) Energy balance and cancer: the role of insulin and insulin-like growth factor-1. Proceedings of the Nutrition Society 60, 91106.CrossRefGoogle Scholar
Kaaks, R, Van Noord, PAH, den Tonkelaar, I, Peeters, PHM, Riboli, E & Grobbee, DE (1998) Breast-cancer incidence in relation to height, weight and body fat distribution in the Dutch DOM cohort. International Journal of Cancer 76, 647651.3.0.CO;2-Q>CrossRefGoogle ScholarPubMed
Kaye, SA, Folsom, AR, Soler, JT, Prineas, RJ & Potter, JD (1991) Associations of body mass and fat distribution with sex hormone concentrations in postmenopausal women. International Journal of Epidemiology 20, 151156.CrossRefGoogle ScholarPubMed
Kelsey, JL & Bernstein, L (1996) Epidemiology and prevention of breast cancer. Annual Review of Public Health 17, 4767.CrossRefGoogle ScholarPubMed
Key, TJ, Allen, NA, Verkasalo, PK & Banks, E (2001) Energy balance and cancer: the role of sex hormones. Proceedings of the Nutrition Society 60, 8189.CrossRefGoogle ScholarPubMed
Key, TJA & Pike, MC (1988) The role of oestrogens and progestogens in the epidemiology and prevention of breast cancer. Journal of Cancer and Clinical Oncology 24, 2943.CrossRefGoogle ScholarPubMed
Kirschner, MA, Samojlik, E, Drejka, M, Szmal, E, Schneider, G & Ertel, N (1990) Androgen-estrogen metabolism in women with upper body versus lower body obesity. Journal of Clinical Endocrinology and Metabolism 70, 473479.CrossRefGoogle ScholarPubMed
Kissebah, AH & Krakower, GR (1994) Regional adiposity and morbidity. Physiology Reviews 74, 761811.CrossRefGoogle ScholarPubMed
Kissebah, AH, Pieris, A & Evans, DJ (1987) Mechanisms associating body fat distribution with the abnormal metabolic profile in obesity. Recent Advances in Obesity Research 5, 5459.Google Scholar
Kohlmeier, L & Kohlmeier, M (1995) Adipose tissue as a medium for epidemiologic exposure assessment. Environmental Health Perspective 103, 99106.Google ScholarPubMed
Krotkiewski, M, Seidall, JC & Björntorp, P (1990) Glucose tolerance and hyperinsulinaemia in obese women: role of adipose tissue distribution, muscle fiber characteristics and androgens. Journal of International Medicine 228, 385392.CrossRefGoogle ScholarPubMed
Kumar, NB, Lyman, GH, Allen, K, Cox, CE & Schapira, DV (1995) Timing of weight gain and breast cancer risk. Cancer 76, 243249.3.0.CO;2-R>CrossRefGoogle ScholarPubMed
La Vecchia, C, Negri, E, Franceschi, S, Talamini, R, Bruzzi, P, Palli, D & Decarli, A (1997) Body mass index and postmenopausal breast cancer: an age-specific analysis. British Journal of Cancer 75, 441444.CrossRefGoogle ScholarPubMed
Lea, AJ (1966) Dietary factors associated with death-rates from certain neoplasms in man. Lancet ii, 332333.CrossRefGoogle Scholar
Le Marchand, L, Kolonel, LN, Earl, ME & Mi, M-P (1988) Body size at different periods of life and breast risk. American Journal of Epidemiology 128, 137152.CrossRefGoogle Scholar
Liehr, JG (2000) Is estradiol a genotoxic mutagenic carcinogen? Endocrine Reviews 21, 4054.Google ScholarPubMed
London, SJ, Colditz, GA, Stampfer, MJ, Willet, WC, Rosner, BR & Speizer, FE (1989) Prospective study of relative weight, height and risk of breast cancer. Journal of the American Medical Association 262, 28532858.CrossRefGoogle ScholarPubMed
Lovegrove, JA, Silva, KDRR, Wright, JW & Williams, CM (2002) Adiposity, insulin and lipid metabolism in post-menopausal women. International Journal of Obesity(in the Press).CrossRefGoogle ScholarPubMed
Lovegrove, JA & Williams, CM (1997) Diet and breast cancer. Breast Cancer 9, 3539.Google Scholar
Mackenzie, I (1955) The production of mammary cancer in rats using oestrogens. British Journal of Cancer 9, 284299.CrossRefGoogle ScholarPubMed
McTiernan, A (2000) Association between energy balance and body mass index and risk of breast carcinoma in women from diverse racial and ethnic backgrounds in the US. Cancer 88, 12481255.3.0.CO;2-1>CrossRefGoogle Scholar
Maggino, T, Pirrone, F, Velluti, F & Bucciante, G (1993) The role of endocrine factors and obesity in hormone dependent gynecological neoplasias. European Journal of Gynaecology and Oncology 14, 119126.Google ScholarPubMed
Magnusson, C, Baron, J, Persson, I, Wolk, A, Bergstrom, R, Trichopoulos, D & Adami, HO (1998) Body size in different periods of life and breast cancer risk in postmenopausal women. International Journal of Cancer 76, 2934.3.0.CO;2-#>CrossRefGoogle Scholar
Männistö, S, Pietinen, P, Pyy, M, Palmgren, J, Eskelinen, M & Uusitupa, M (1996) Body size indicators and risk of breast cancer according to menopause and estrogen-receptor status. International Journal of Cancer 68, 813.3.0.CO;2-V>CrossRefGoogle ScholarPubMed
Minihane, AM, Khan, S, Talmud, PJ, Williams, DL, Wright, JW, Murphy, MC, Griffin, BA & Williams, CM (2000) Lack of association between lipaemia and central adiposity in subjects with an atherogenic lipoprotein phenotype (ALP). International Journal of Obesity 24, 10971106.CrossRefGoogle ScholarPubMed
Molarius, A & Seidell, JC (1998) Selection of anthropometric indicators for classification of abdominal fatness – a critical review. International Journal of Obesity 22, 719727.CrossRefGoogle ScholarPubMed
Moller, H, Mellengaard, A, Lindvig, K & Olsen, JH (1994) Obesity and cancer risk: A Danish record-linkage study. European Journal of Cancer 30, 344350.CrossRefGoogle Scholar
Monninkhof, EM, van der Schouw, YT & Peeters, PHM (1999) Early age at menopause and breast cancer: are leaner women more protected? A prospective analysis of the Dutch DOM cohort. Breast Cancer Research and Treatment 55, 285291.CrossRefGoogle ScholarPubMed
Moore, DH (1983) Breast carcinoma etiological factors. Advanced Cancer Research 40, 189253.CrossRefGoogle ScholarPubMed
Muti, P, Stanulla, M, Micheli, A, Krogh, V, Freudenheim, JL, Yang, J, Schunemann, HJ, Trevisan, M & Berrino, F (2000) Markers of insulin resistance and sex steroid hormone activity in relation to breast cancer risk: a prospective analysis of abdominal adiposity, sebum production, and hirsutism. Cancer Causes and Control 11, 721730.CrossRefGoogle Scholar
Nagata, C, Shimizu, H, Takami, R, Hayashi, M, Takeda, N & Yasuda, K (2000) Relations of insulin resistance and serum concentrations of estradiol and sex hormone-binding globulin to potential breast cancer risk factors. Japanese Journal of Cancer Research 91, 948953.CrossRefGoogle ScholarPubMed
Nestler, JE & Kahwash, Z (1994) Sex-specific action of insulin acutely increases the metabolic clearance rate of dehydroepiandrosterone in humans. Journal of Clinical Investigations 94, 14841489.CrossRefGoogle ScholarPubMed
Nestler, JE & Strauss, JF (1991) Insulin as an effector of human ovarian and adrenal steroid metabolism. Endocrinology Metabolism of Clinical North America 20, 807823.CrossRefGoogle ScholarPubMed
Ng, E-H, Gao, F, Ji, C-H, Ho, G-H & Soo, K-C (1997) Risk factors for breast carcinoma in Singaporean Chinese women. Cancer 80, 725731.3.0.CO;2-V>CrossRefGoogle ScholarPubMed
Oh, Y, Muller, HL, Lamson, G & Rosenfeld, RG (1993) Insulin-like growth factor (IGF)-independent action of IGF-binding protein 3 in Hs578T human breast cancer cells. Journal of Biological Chemistry 268, 1496414971.CrossRefGoogle ScholarPubMed
Paffenbarger, RS Jr, Kampert, JB & Chang, H-G (1980) Characteristics that predict risk of breast cancer before and after the menopause. American Journal of Clinical Nutrition 112, 258268.Google ScholarPubMed
Pathak, DR & Whittemore, AS (1992) Combined effects of body size, parity and menstrual events on breast cancer incidence in seven countries. American Journal of Epidemiology 135, 153168.CrossRefGoogle ScholarPubMed
Peacock, SL, White, E, Daling, JR, Voigt, LF & Malone, KE (1999) Relation between obesity and breast cancer in young women. American Journal of Epidemiology 149, 339346.CrossRefGoogle ScholarPubMed
Petrek, JA, Peters, M, Cirrincione, C, Rhodes, D & Bajorunas, D (1993) Is body fat topography a risk factor for breast cancer?. Annals of Internal Medicine 118, 356362.CrossRefGoogle ScholarPubMed
Petridou, E, Papadiamantis, Y, Markopoulos, C, Spanos, E, Dessypris, N & Trichopoulos, D (2000) Leptin and insulin growth factor 1 in relation to breast cancer (Greece). Cancer Causes and Control 11, 383388.CrossRefGoogle Scholar
Plymate, SR, Hoop, RC, Jones, RE & Matej, LA (1990) Regulation of sex hormone-binding globulin production by growth factors. Metabolism 39, 967970.CrossRefGoogle ScholarPubMed
Pollak, MN (1998) Endocrine effects of IGF-I on normal and transformed breast epithelial cells: Potential relevance to strategies for breast cancer treatment and prevention. Breast Cancer Research and Treatment 47, 209217.CrossRefGoogle ScholarPubMed
Poretsky, L & Kalin, MF (1987) The gonadotropic function of insulin. Endocrinology Reviews 8, 132141.CrossRefGoogle ScholarPubMed
Potischman, N, Hoover, RN, Brinton, LA, Siiteri, P, Dorgan, JF, Swanson, CA, Berman, ML, Mortel, R, Twiggs, LB, Barrett, RJ, Wilbanks, GD, Persky, V & Lurain, JR (1996) Case-control study of endogenous steroid hormones and endometrial cancer. Journal of the National Cancer Institute 88, 11271135.CrossRefGoogle ScholarPubMed
Schapira, DV, Kumar, NG, Lyman, GH & Cox, CE (1990) Abdominal obesity and breast cancer risk. American College of Physicans 112, 182186.Google ScholarPubMed
Schapira, DV, Kumar, NG, Lyman, GH & Cox, CE (1991) Obesity and body fat distribution and breast cancer prognosis. Cancer 67, 523528.3.0.CO;2-O>CrossRefGoogle ScholarPubMed
Schapira, DV, Wolff, PA, Kumar, NB, Anderson, JJB, Aziz, NM, Lyman, GH & Swanson, M (1994) The effect of weight loss on estimated breast cancer risk and sex hormone levels. Oncology Reports 1, 613617.Google ScholarPubMed
Secreto, G & Zumoff, B (1994) Abnormal production of androgens in women with breast cancer. Anticancer Research 14, 21132117.Google ScholarPubMed
Sellers, TA (1997) Genetic factors in the pathogenesis of breast cancer: Their role and relative importance. Journal of Nutrition 127, 929S932S.CrossRefGoogle ScholarPubMed
Sellers, TA, Kushi, LH & Potter, JD (1992) Effect of family history, body fat distribution, and reproductive factors on the risk of post-menopausal breast cancer. New England Journal of Medicine 326, 13231329.CrossRefGoogle Scholar
Shi, YE, Liu, YE, Lippman, ME & Dickson, RB (1994) Progestins and antiprogestins in mammary tumour growth and metastasis. Human Reproduction 9, 162173.CrossRefGoogle ScholarPubMed
Shifren, JL & Schiff, I (2000) The aging ovary. Journal of Women's Health and Gender Based Medicine 9, S3S7.CrossRefGoogle ScholarPubMed
Shu, XO, Jin, F, Dai, Q, Shi, JR, Potter, JD, Brinton, LA, Hebert, JR, Ruan, ZX, Gao, YT & Zheng, W (2001) Association of body size and fat distribution with risk of breast cancer among Chinese women. International Journal of Cancer 94, 449455.CrossRefGoogle ScholarPubMed
Siiteri, PK & MacDonald, PC (1973) Role of extraglandular oestrogen in human endocrinology. In Handbook of Physiology. pp 615-629. [SR Geiger, EB Astwood and RO Greep editors]. Washington, DC: American Physiological Society.Google Scholar
Singh, A, Hamilton-Fairley, D & Koistinen, R (1990) Effect of insulin-like growth factor-type I (IGF-I) and insulin on the secretion of sex-hormone binding globulin and IGF-I binding globulin (IBP-I) by human hepatoma cells. Journal of Endocrinology 124, R1–R3.CrossRefGoogle ScholarPubMed
Sonnenschein, E, Toniolo, P, Terry, MB, Bruning, PF, Kato, I, Koenig, KL & Shore, RE (1999) Body fat distribution and obesity in pre- and post-menopausal breast cancer. International Journal of Epidemiology 28, 10261031.CrossRefGoogle Scholar
Spicer, LJ & Francisco, CC (1997) The adipose gene product, leptin: evidence of a direct inhibitory role in ovarian function. Endocrinology 135, 33743379.CrossRefGoogle Scholar
Stoll, BA (1995) Timing of weight gain in relation to breast cancer risk. Annals of Oncology 6, 245248.CrossRefGoogle ScholarPubMed
Stoll, BA (1996) Obesity, social class and Western diet: A link to breast cancer prognosis. European Journal of Cancer 32, 12931295.CrossRefGoogle Scholar
Stoll, BA (1999) Perimenopausal weight gain and progression of breast cancer precursors. Cancer Detection and Prevention 23, 3136.CrossRefGoogle ScholarPubMed
Stoll, BA & Secreto, G (1992) New hormone-related markers of high risk to breast cancer. Annals of Oncology 3, 435438.CrossRefGoogle ScholarPubMed
Swanson, CA, Brinton, LA, Taylor, PR, Licitra, LM, Zeigler, RG & Schairer, C (1989) Body size and breast cancer risk assessed in women participating in the Breast Cancer Detection Demonstration Project. American Journal of Epidemiology 130, 11331141.CrossRefGoogle ScholarPubMed
Swanson, CA, Jones, DY, Schatzkin, A, Briton, LA & Zeigler, RG (1988) Breast cancer risk assessed by anthropometry in NHANES I Epidemiological follow-up study. Cancer Research 48, 53635367.Google ScholarPubMed
Tannenbaum, A (1942) The genesis and growth of tumours. iii Effects of a high fat diet. Cancer Research 2, 468475.Google Scholar
Toniolo, PG (1997) Endogenous estrogens and breast cancer risk: the case for prospective cohort studies. Environmental Health Perspective??? 105, 587592.Google ScholarPubMed
Toniolo, PG, Levitz, M, Zeleniuch-Jacquotte, A, Banerjee, S, Koenig, KL, Shore, RE, Strax, P & Pasternack, BS (1995) A prospective study of endogenous estrogens and breast cancer in postmenopausal women. Journal of the National Cancer Institute 87, 190197.CrossRefGoogle ScholarPubMed
Tornberg, SA & Carstensen, JM (1994) Relationship between Quetelet's index and cancer of breast and female genital tract in 47 000 women followed for 25 years. British Journal of Cancer 69, 358361.CrossRefGoogle ScholarPubMed
Toscano, V, Balducci, P, Mangiantini, A & Sciarra, F (1992) Steroidal and non-steroidal factors in plasma sex hormone binding globulin regulation. Journal of Steroidal Biochemistry and Molecular Biology 43, 431437.CrossRefGoogle ScholarPubMed
Trentham-Dietz, A, Newcomb, PA, Egan, KM, Titus-Ernstroff, L, Baron, JA, Storer, BE, Stampfer, M & Willet, WC (2000) Weight change and risk of post-menopausal breast cancer (United States). Cancer Causes and Control 11, 533542.CrossRefGoogle Scholar
Trentham-Dietz, A, Newcomb, PA & Storer, BE (1997) Body size and risk of breast cancer. American Journal of Epidemiology 145, 10111019.CrossRefGoogle ScholarPubMed
Ursin, G, Longnecker, MP, Haile, RW & Greenland, S (1995) A meta-analysis of body mass index and risk of pre-menopausal breast cancer. Epidemiology 6, 137141.CrossRefGoogle Scholar
Van den Brandt, PA, Dirx, MJM, Ronckers, CM, van den Hoogen, P & Goldbohm, RA (1997) Height, weight, weight change and postmenopausal breast cancer risk: the Netherlands Cohort Study. Cancer Causes and Control 8, 3947.CrossRefGoogle ScholarPubMed
Van den Brandt, PA, Spiegelman, D, Yaun, S-S, Adami, HO, Beeson, L, Folsom, AR, Fraser, G, Goldbohm, RA, Graham, S, Kushi, L, Marshall, JR, Miller, AB, Rohan, T, Smith-Warner, SA, Speizer, FE, Willet, WC, Wolk, A & Hunter, DJ (2000) Pooled analysis of prospective cohort studies on height, weight and breast cancer risk. American Journal of Epidemiology 152, 514527.CrossRefGoogle ScholarPubMed
van Noord, PAH, Seidell, JC, den Tonkelaar, I, Baanders-van Halewijn, EA & Ouwehand, IJ (1990) The relationship between fat distribution and some chronic diseases in 11 825 women participating in the DOM-project. International Journal of Epidemiology 19, 564570.CrossRefGoogle ScholarPubMed
Vatten, LJ & Kvinnsland, S (1990) Body mass index and risk of breast cancer. A prospective study of 23 826 Norwegian women. International Journal of Cancer 45, 440444.CrossRefGoogle ScholarPubMed
Verkasalo, PK, Thomas, HV, Appleby, PN, Davey, GK & Key, TJ (2001) Circulating levels of sex hormones and their relation to risk factors for breast cancer: a cross-sectional study in 1092 pre-menopausal and post-menopausal women. Cancer Causes and Control 12, 4759.CrossRefGoogle Scholar
Weaver, JU, Holly, JMP, Kopelman, PG, Noonan, K, Giadom, CG, White, N, Virdee, S & Wass, JAH (1990) Decreased sex hormone binding globulin (SHBG) and insulin-like growth factor binding protein (IGFBP-1) in extreme obesity. Clinical Endocrinology 33, 415422.CrossRefGoogle Scholar
Wee, CC, McCarthy, EP, David, RB & Philips, RS (2000) Screening for cervical and breast cancer: Is obesity an unrecognized barrier to preventive care? Annals of Internal Medicine 132, 697700.CrossRefGoogle ScholarPubMed
Willet, WC, Browne, ML, Bain, C, Lipnick, RJ, Stampfer, MJ & Rosner, B (1985) Relative weight and risk of breast cancer among premenopausal women. American Journal of Epidemiology 122, 731740.CrossRefGoogle Scholar
Wolk, A, Gridley, G, Svensson, M, Nyren, O, McLaughlin, JK, Fraumeni, JF & Adami, HO (2001) A prospective study of obesity and cancer risk (Sweden). Cancer Causes and Control 12, 1321.CrossRefGoogle ScholarPubMed
Yee, D & Lee, AV (2000) Crosstalk between the insulin-like growth factor and estrogens in breast cancer. Journal of Mammary Gland Biology and Neoplasia 5, 107115.CrossRefGoogle ScholarPubMed
Yong, LC, Brown, CC, Schatzkin, A & Schairer, C (1996) Prospective study of relative weight and risk of breast cancer: The Breast Cancer Detection Demonstration Project Follow-up Study 1979–1987–1989. American Journal of Epidemiology 143, 985995.CrossRefGoogle Scholar
Zamboni, M, Armellini, F, Harris, T, Turcato, E, Micciolo, R, Bergamo-Andreis, IA & Bosello, O (1997) Effects of age on body fat distribution and cardiovascular risk factors in women. American Journal of Clinical Nutrition 66, 111115.CrossRefGoogle ScholarPubMed
Ziegler, RG, Hoover, RN, Pike, MC, Hildesheim, A, Normura, AMY, West, DW, Wu-Williams, AH, Kolonel, LN, Horn-Ross, PL, Rosenthal, JF & Hyer, MB (1996) Migration patterns and breast cancer risk in Asian-American women. Journal of the National Cancer Institute 85, 18191827.CrossRefGoogle Scholar
Zumoff, B (1988) Hormonal profiles in women with breast cancer. Anticancer Research 8, 627636.Google ScholarPubMed