Effects of light to moderate alcohol consumption on thyroid volume and thyroid function
Pierre Valeix
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorPatrice Faure
Département de Biologie Intégrée, CHRU Michallon, Grenoble, France
Search for more papers by this authorSandrine Bertrais
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorAnne-Claire Vergnaud
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorLuc Dauchet
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorSerge Hercberg
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorPierre Valeix
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorPatrice Faure
Département de Biologie Intégrée, CHRU Michallon, Grenoble, France
Search for more papers by this authorSandrine Bertrais
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorAnne-Claire Vergnaud
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorLuc Dauchet
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorSerge Hercberg
National Institute for Health and Medical Research, Nutritional Epidemiology Unit, U557 INSERM; U1125 INRA; CNAM; Université Paris 13; CRNH Ile-de-France, Bobigny and
Search for more papers by this authorSummary
Objective To examine a possible relationship between alcohol consumption and thyroid volume and function.
Subjects A total of 1493 subjects (599 males aged 45–60 years and 894 females aged 35–60 years) with no known thyroid disorders who were participating in the SUpplémentation en VItamines et Minéraux AntioXydants (SU.VI.MAX) study.
Measures Daily dietary intakes and alcohol consumption in grams per day were based on five 24-h dietary records. Thyroid volume and structure were measured by ultrasonography. At baseline, TSH and free T4 (FT4) were measured.
Results Male and female drinkers consumed (mean ± SD), respectively, 30·6 ± 23·3 and 14·2 ± 13·4 g of ethanol per day. There was a decrease in carbohydrate intake with higher alcohol consumption among both male (P = 0·0001) and female drinkers (P = 0·06). Alcohol intake was associated with higher thyroid volume in males and females independently of iodine status. Multivariate odds ratios (ORs, with 95% confidence intervals) of thyroid enlargement (sex-specific 85th percentile values of ≥ 20 ml for males, ≥ 14 ml for females) in males and females who drank ≥ 45 and ≥ 20 g/day, respectively, were 2·22 (1·10–4·47) and 2·11 (1·15–3·90) compared with low drinkers, and 11·75 (2·15–64·12) and 2·03 (1·04–3·96) compared with abstainers. ORs were slightly increased when smokers were excluded. Alcohol intake was associated with low FT4 levels in male drinkers independently of TSH.
Conclusions An increasing dose–response relationship was found between alcohol intake levels and ORs for thyroid enlargement in both males and females. Alcohol consumption was strongly associated with a higher risk in females.
References
- 1 Lieber, C.S. (1998) Hepatic and other medical disorders of alcoholism: from pathogenesis to treatment. Journal of Studies on Alcohol, 59, 9–25.
- 2 Hermann, D., Heinz, A. & Mann, K. (2002) Dysregulation of the hypothalamic–pituitary–thyroid axis in alcoholism. Addiction, 97, 1369–1381.
- 3 Hegedüs, L., Rasmussen, N., Ravn, V., Kastrup, J., Krogsgaard, K. & Aldershvile, J. (1988) Independent effects of liver disease and chronic alcoholism on thyroid function and size: the possibility of a toxic effect of alcohol on the thyroid gland. Metabolism, 37, 229–233.
- 4 Baumgartner, A., Rommelspacher, H., Otto, M., Schmidt, L.G., Kürten, I., Gräf, K.J., Campos-Barros, A. & Platz, W. (1994) Hypothalamic–pituitary–thyroid (HPT) axis in chronic alcoholism. I. HPT axis in chronic alcoholics during withdrawal and after 3 weeks of abstinence. Alcoholism: Clinical and Experimental Research, 18, 284–294.
- 5 Baumgartner, A., Heyne, A., Campos-Barros, A., Köhler, R., Müller, F., Meinhold, H., Rommelspacher, H. & Wolffgramm, J. (1994) Hypothalamic–pituitary–thyroid axis in chronic alcoholism. II. Deiodinase activities and thyroid hormone concentrations in brain and peripheral tissues of rats chronically exposed to ethanol. Alcoholism: Clinical and Experimental Research, 18, 295–304.
- 6 Mason, G.A., Noonan, L.R., Garbutt, J.C., Caldwell, J.D., Shimoda, K., Walker, C.H. & Li, L. (1992) Effects of ethanol and control liquid diets on the hypothalamic–pituitary–thyroid axis of male Fischer-344 rats. Alcoholism: Clinical and Experimental Research, 16, 1130–1137.
- 7 Knudsen, N., Bülow, I., Laurberg, P., Ovesen, L. & Jørgensen, T. (2001) Alcohol consumption is associated with reduced prevalence of goitre and solitary thyroid nodules. Clinical Endocrinology, 55, 41–46.
- 8 Derwahl, M. & Studer, H. (2000) Multinodular goitre: ‘much more to it than simply iodine deficiency’. Baillière's Clinical Endocrinology and Metabolism, 14, 577–600.
- 9 Mortensen, E.L., Jensen, H.H., Sanders, S.A. & Reinisch, J.M. (2001) Better psychological functioning and higher social status may largely explain the apparent health benefits of wine. Archives of Internal Medicine, 161, 1844–1848.
- 10 Barefoot, J.C., Grønbæk, M., Feaganes, J.R., McPherson, R.S., Williams, R.B. & Siegler, I.C. (2002) Alcoholic beverage preference, diet, and health habits in the UNC Alumni Heart Study. American Journal of Clinical Nutrition, 76, 466–472.
- 11 Jones, B.R., Barrett-Connor, E., Criqui, M.H. & Holdbrook, M.J. (1982) A community study of calorie and nutrient intake in drinkers and nondrinkers of alcohol. American Journal of Clinical Nutrition, 35, 135–139.
- 12 Gual, A. & Colom, J. (1997) Why has alcohol consumption declined in countries of Southern Europe? Addiction, 92 (Suppl. 1), S21–S31.
- 13 Veenstra, J., Schenkel, J.A.A., Van Erp-Baart, A.M.J., Brants, H.A.M., Hulshof, K.F.A.M., Kistemaker, C., Schaafsma, G. & Ockhuizen, T. (1993) Alcohol consumption in relation to food intake and smoking habits in the Dutch National Food Consumption Survey. European Journal of Clinical Nutrition, 47, 482–489.
- 14 Vestergaard, P. (2002) Smoking and thyroid disorders – a meta-analysis. European Journal of Endocrinology, 146, 153–161.
- 15 Barrère, X., Valeix, P., Préziosi, P., Bensimon, M., Pelletier, B., Galan, P. & Hercberg, S. (2000) Determinants of thyroid volume in healthy French adults participating in the SU.VI.MAX cohort. Clinical Endocrinology, 52, 273–278.
- 16 Hegedüs, L. (1984) Decreased thyroid gland volume in alcoholic cirrhosis of the liver. Journal of Clinical Endocrinology and Metabolism, 58, 930–933.
- 17 Lands, W.E.M. (1998) Alcohol, calories, and appetite. Vitamins and Hormones, 54, 31–49.
- 18 Gruchow, H.W., Sobocinski, K.A., Barboriak, J.J. & Scheller, J.G. (1985) Alcohol consumption, nutrient intake and relative body weight among US adults. American Journal of Clinical Nutrition, 42, 289–295.
- 19 Stryker, W.C., Kaplan, L.A., Stein, E.A., Stampfer, M.J., Sober, A. & Willett, W.C. (1988) The relation of diet, cigarette smoking, and alcohol consumption to plasma beta-carotene and alpha-tocopherol levels. American Journal of Epidemiology, 127, 283–296.
- 20 Colditz, G.A., Giovannucci, E., Rimm, E.B., Stampfer, M.J., Rosner, B., Speizer, F.E., Gordis, E. & Willett, W.C. (1991) Alcohol intake in relation to diet and obesity in women and men. American Journal of Clinical Nutrition, 54, 49–55.
- 21 Brady, W.E., Mares-Perlman, J.A., Bowen, P. & Stacewicz-Sapuntzakis, M. (1996) Human serum carotenoid concentrations are related to physiologic and lifestyle factors. Journal of Nutrition, 126, 129–137.
- 22 Nordmann, R., Ribière, C. & Rouach, H. (1992) Implication of free radical mechanisms in ethanol-induced cellular injury. Free Radical Biology and Medicine, 12, 219–240.
- 23 Frezza, M., Di Padova, C., Pozzato, G., Terpin, M., Baraona, E. & Lieber, C.S. (1990) High blood alcohol levels in women. The role of decreased gastric alcohol deshydrogenase activity and first-pass metabolism. New England Journal of Medicine, 322, 95–99.
- 24 Valeix, P., Zarebska, M., Préziosi, P., Galan, P., Pelletier, B. & Hercberg, S. (1999) Iodine deficiency in France. Lancet, 353, 1766–1767.
- 25 Hercberg, S., Galan, P., Préziosi, P., Bertrais, S., Mennen, L., Malvy, D., Roussel, A.M., Favier, A. & Briançon, S. (2005) The SU.VI.MAX study: a randomized, placebo-controlled trial of the health effects of antioxidant vitamins and minerals. Archives of Internal Medicine, 164, 2335–2342.
- 26 Favier, J.C., Ireland-Ripert, J., Toque, C. & Feinberg, M. (1995) Food composition table CIQUAL (in French). Lavoisier Tec & Doc, Paris.
- 27 Watson, P.E., Watson, I.D. & Batt, R.D. (1980) Total body water volumes for adult males and females estimated from simple anthropometric measurements. American Journal of Clinical Nutrition, 33, 27–39.
- 28 Gutekunst, R., Becker, W., Hehrmann, R., Olbricht, T. & Pfannenstiel, P. (1988) Ultrasonic diagnosis of the thyroid gland [in German]. Deutsche Medizinische Wochenschrift, 113, 1109–1112.
- 29 Ruidavets, J.B., Ducimetière, P., Arveiler, D., Amouyel, P., Bingham, A., Wagner, A., Cottel, D., Perret, B. & Ferrières, J. (2002) Types of alcoholic beverages and blood lipids in a French population. Journal of Epidemiology and Community Health, 56, 24–28.
- 30 Volatier, J.L. (2000) National survey on individual food consumption (INCA) (in French). Lavoisier Tec & Doc, Paris.
- 31 Klatsky, A.L., Armstrong, M.A. & Kipp, H. (1990) Correlates of alcoholic beverage preference: traits of persons who choose wine, liquor or beer. British Journal of Addiction, 85, 1279–1289.
- 32 Tjønneland, A., Grønbæk, M., Stripp, C. & Overvad, K. (1999) Wine intake and diet in a random sample of 48 763 Danish men and women. American Journal of Clinical Nutrition, 69, 49–54.
- 33 Grønbæk, M., Mortensen, E.L., Mygind, K., Andersen, A.T., Becker, U., Gluud, C. & Sørensen, T.I.A. (1999) Beer, wine, spirits and subjective health. Journal of Epidemiology and Community Health, 53, 721–724.
- 34 Truelsen, T., Grønbæk, M., Schnohr, P. & Boysen, G. (1998) Intake of beer, wine, and spirits and risk of stroke. The Copenhagen City Heart Study. Stroke, 29, 2467–2472.
- 35 Lindsay, R.H., Gaitan, E. & Cooksey, R.C. (1989) Pharmacokinetics and intrathyroidal effects of flavonoids. In: E. Gaitan ed. Environmental Goitrogenesis. CRC Press, Boca Raton, 43–56.
- 36 Davidson, M.B. & Chopra, I.J. (1979) Effect of carbohydrate and noncarbohydrate sources of calories on plasma 3,5,3′-triiodothyronine concentrations in man. Journal of Clinical Endocrinology and Metabolism, 48, 577–581.
- 37 Danforth, E., Horton, E.S., O’Connell, M., Sims, E.A.H., Burger, A.G., Ingbar, S.H., Braverman, L. & Vagenakis, A.G. (1979) Dietary-induced alterations in thyroid hormone metabolism during overnutrition. Journal of Clinical Investigation, 64, 1336–1347.
- 38 Leitzmann, M.F., Tsai, C.J., Stampfer, M.J., Rimm, E.B., Colditz, G.A., Willett, W.C. & Giovannucci, E.L. (2003) Alcohol consumption in relation to risk of cholecystectomy in women. American Journal of Clinical Nutrition, 78, 339–347.
- 39 Graham, K., Wilsnack, R., Dawson, D. & Vogeltanz, N. (1998) Should alcohol consumption measures be adjusted for gender differences? Addiction, 93, 1137–1147.
- 40 Shaper, A.G. & Wannamethee, S.G. (1998) The J-shaped curve and changes in drinking habit. Novartis Foundation Symposium, 216, 173–192.
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