Relationships among Serum Adiponectin, Leptin and Vitamin D Concentrations and the Metabolic Syndrome in Farmers

Seo-Eun Yeon; Hee-Ryoung Son; Jung-Sook Choi; Eun-Kyung Kim

doi:10.5720/kjcn.2014.19.1.12

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Yeon, Son, Choi, and Kim: Relationships among Serum Adiponectin, Leptin and Vitamin D Concentrations and the Metabolic Syndrome in Farmers

Original Article

Korean Journal of Community Nutrition 2014; 19(1): 12-26.

Published online: 28 February 2014

DOI: https://doi.org/10.5720/kjcn.2014.19.1.12

Relationships among Serum Adiponectin, Leptin and Vitamin D Concentrations and the Metabolic Syndrome in Farmers

Seo-Eun Yeon, Hee-Ryoung Son, Jung-Sook Choi¹, Eun-Kyung Kim

Department of Food and Nutrition, Gangneung-Wonju National University, Gangwon-do, Korea.

¹National Academy of Agricultural Science, Rural Development Administration, Suwon, Korea.

Corresponding author: Eun Kyung Kim, Department of Food & Nutrition, Gangneung-Wonju National University,7 Jukheon road, Gangneung, Gangwon-do 210-702, Korea. Tel: (033) 640-2336, Fax: (033) 640-2330, ekkim@gwnu.ac.kr

Received 13 January 2014 Revised 14 February 2014 Accepted 18 February 2014

(open-access):

This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

The purpose of this study was to investigate the relationships among serum adiponectin, leptin and vitamin D concentrations and the metabolic syndrome in Korean farmers. 105 (26 males, 79 females) farmers (39~78 years, mean age 59.4 ± 9.6 years) in Gangwon - area were included in this study. Anthropometric measurements and biochemical blood analysis of subjects were carried out. The prevalence of obesity, abdominal obesity, hypertension, diabetes, hypertriglyceridemia, hypercholesterolemia and hyper LDL-cholesterolemia, metabolic syndrome were 51.9%, 65.7%, 49.5%, 15.3%, 17.3%, 13.5%, 11.5% and 40.9%, respectively. Serum adiponectin and leptin levels (8.90 µg/ml and 12.6 ng/ml) of females were significantly higher than those (6.49 µg/ml and 4.88 ng/ml) of males. But there was no significant difference in 25(OH)vitamin D concentration between males (15.4 ng/ml) and females (16.9 ng/ml). In the subjects with metabolic syndrome, the adiponectin levels were significantly lower and leptin levels were significantly higher than those of the subjects without metabolic syndrome. Serum adiponectin level had positive correlations with HDL-cholesterol level (r = 0.325, p < 0.001), but showed negative correlations with triglyceride and fasting blood glucose concentrations, body weight and waist/hip circumference ratio (r = -0.202 ~ -0.317, p < 0.05). Serum leptin and 25(OH)vitamin D concentrations were positively correlated with body fat (kg, %) and BMI, waist and hip circumferences (r = 0.244 ~ 0.682, p < 0.001). The results of this study suggested that adiponectin and leptin levels could be credible indices to predict chronic diseases in farmers. However, further research on vitamin D should be carried out considering another factors.

Keywords: farmer, adiponectin, leptin, vitamin D, chronic diseases

Figures and Tables

Table 1

The distribution of subjects by the gender and by the age group

1) N (%)

2) Mean ± SD

Table 2

Anthropometric measurements of subjects by the gender

1) Mean ± SD

2) Body fat (%) measured by Inbody 720

3) Muscle (kg) calculated by Heymsfield's formular

4) Muscle (%) = [Muscle (kg) / Body weight (kg)] × 100

^*: p < 0.05, ^**: p < 0.01, ^***: p < 0.001 Significantly different between male and female by t-test

Table 3

Fasting blood glucose levels and blood lipid profiles of subjects by the gender

1) Mean ± SD

2) Atherogenic index = (Total cholesterol - HDL cholesterol) / HDL cholesterol

^*: p < 0.05 Significantly different between male and female by t-test

Table 4

Serum adiponectin, leptin and 25(OH)vitamin D concentrations of subjects by the gender

1) Mean ± SD

^**: p < 0.01, ^***: p < 0.001 Significantly different between male and female by t-test

Table 5

Prevalence of chronic diseases in the subjects

1) N (%)

Table 6

Comparison of fasting blood glucose concentrations and lipid profiles in subjects with and without metabolic syndrome

1) MS (-): without metabolic syndrome

2) MS(+): with metabolic syndrome

3) Mean ± SD

^*: p < 0.05, ^**: p < 0.01, ^***: p < 0.001 Significantly different between MS (-) and MS (+) by t-test

^†††: p < 0.001 Significantly different between male and female by t-test

Table 7

Comparison of serum adiponectin, leptin and 25(OH)vitamin D concentrations in subjects with and without metabolic syndrome

1) MS (-): without metabolic syndrome

2) MS (+): with metabolic syndrome

3) Mean ± SD

^*: p < 0.05, ^**: p < 0.01 Significantly different between MS (-) and MS (+) by t-test

^†: p < 0.05, ^††: p < 0.01, ^†††: p < 0.001 Significantly different between male and female by t-test

Table 8

Pearson's correlation coefficients of serum adiponectin, leptin, leptin to adiponectin ratio and serum 25(OH)vitamin D concentration with study variables

1) Pearson's correlation coefficient (r)

^*: p < 0.05, ^**: p < 0.01, ^***: p < 0.001 Significantly correlated

Notes

This study was supported by grants from rural development administration of Korea (RDA: 20120401-037-501-001-03-00).

References

1. Adamczak M, Wiecek A, Funahashi T, Chudek J, Kokot F, Matsuzawa Y. Decreased plasma adiponectin concentration in patients with essential hypertension. Am J Hypertens. 2003; 16(1):72–75.

2. Ahima RS, Flier JS. Adipose tissue as an endocrine organ. Trends Endocrinol Metab. 2000; 11(8):327–332.

3. Arita Y, Kihara S, Ouchi N, Takahashi M, Maeda K, Miyagawa J, Hotta K, Shimomura I, Nakamura T, Miyaoka K, Kuriyama H, Nishida M, Yamashita S, Okubo K, Matsubara K, Muraguchi M, Ohmoto Y, Funahashi T, Matsuzawa Y. Paradoxical decrease of an adipose-specific protein, adiponectin, in obesity. Biochem Biophys Res Commun. 1999; 257(1):79–83.

4. Artaza JN, Mehrotra R, Norris KC. Vitamin D and cardiovascular system. Clin J Am Soc Nephrol. 2009; 4(9):1515–1522.

5. Boden G, Chen X, Kolaczynski JW, Polansky M. Effects of prolonged hyperinsulinemia on serum leptin in normal human subjects. J Clin Invest. 1997; 100(5):1107–1113.

6. Bruun JM, Lihn AS, Verdich C, Pedersen SB, Toubro S, Astrup A, Richelsen B. Regulation of adiponectin by adipose tissue-derived cytokines: in vivo and in vitro investigations in humans. Am J Physiol Endocrinol Metab. 2003; 285(3):E527–E533.

7. Buettner C, Muse ED, Cheng A, Chen L, Scherer T, Pocai A. Leptin controls adipose tissue lipogenesis via central, STAT3-independent mechanisms. Nat Med. 2008; 14(6):667–675.

8. Cho YG, Kang JH. Clinical implications of the metabolic syndrome. Food Ind Nutr. 2010; 15(1):1–3.

9. Cho YH. Relationnship among Chronic Disease, Health Status and Health Related Lifestyle of Rural elderly by Gender. J Korean Soc Health Educ Promot. 2009; 26(2):35–47.

10. Choe JS, Paik HY, Kwon SO. Nutritional status and related factors of residents aged over 50 in longevity areas I. Anthropometric measurements and biochemical nutritional status. Korean J Nutr. 2004; 37(9):825–837.

11. Choi KM, Lee J, Lee KW, Seo JA, Oh JH, Kim SG, Kim NH, Choi DS, Baik SH. Serum adiponectin concentrations predict the developments of type 2 diabetes and the metabolic syndrome in elderly Koreans. Clin Endocrinol (Oxf). 2004; 61(1):75–80.

12. Choi YJ, Chang MJ. Comparison of abdominal fat, Aaipocytokine, metabolic syndrome risk factors between diabetes group and none-diabetes group in individuals with spinal cord injury. J Adapt Phys Act Exerc. 2010; 18(3):57–70.

13. Cnop M, Havel PJ, Utzschneider KM, Carr DB, Sinha MK, Boyko EJ, Retzlaff BM, Knopp RH, Brunzell JD, Kahn SE. Relationship of adiponectin to body fat distribution, Iinsulin sensitivity and plasma lipoproteins: evidence for independent roles of age and sex. Diabetologia. 2003; 46(4):459–469.

14. Colston KW. Vitamin D and breast cancer risk. Best Pract Res Clin Endocrinol Metab. 2008; 22(4):587–599.

15. Considine RV, Sinha MK, Heiman ML, Kriauciunas A, Stephens TW, Nyce MR, Ohannesian JP, Marco CC, McKee LJ, Bauer TL. Serum immunoreactive - leptin concentrations in normal-weight and obese humans. N Engl J Med. 1996; 334(5):292–295.

16. Du Bois D, Du Bois EF. A formula to estimate the approximate surface area if height and weight be known. Arch Intern Med. 1916; 17:863–871.

17. Mathieu C, Van der Schueren BJ. Vitamin D deficiency is not good for you. Diabetes Care. 2011; 34(5):1245–1246.

18. Fasshauer M, Paschke R. Regulation of adipocytokines and insulin resistance. Diabetologia. 2003; 46(12):1594–1603.

19. Ford ES, Ajani UA, McGuire LC, Liu S. Concentrations of serum vitamin D and the metabolic syndrome among U.S. adults. Diabetes Care. 2005; 28(5):1228–1230.

20. Friedewald WT, Levy RI, Fredrickson DS. Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin Chem. 1972; 18:499–502.

21. Fruhbeck G, Nutr R, Salvador L. Role of adipocytokines in metabolism and disease. Nutr Res. 2004; 24(10):803–826.

22. Gannage-Yared MH, Chedid R, Khalife S, Azzi E, Zoghbi F, Halaby G. Vitamin D in relation to metabolic risk factors, insulin sensitivity and adiponectin in a young middle-eastern population. Eur J Endocrinol. 2009; 160(6):965–971.

23. Heo KH, Won YL, Ko KS, Kim KW. Effects of obesity on the physiological levels of adiponectin, leptin and diagnostic indices of metabolic syndrome in male workers. Korean J Occup Health Nurs. 2009; 18(1):44–54.

24. Hercberg S, Galan P, Preziosi P, Bertrais S, Mennen L, Malvy D, Roussel AM, Favier A, Briancon S. The SU.VI.MAX Study: A randomized, placebo-controlled trial of the health effects of antioxidant vitamins and minerals. Arch Intern Med. 2004; 164(21):2335–2342.

25. Heymsfield SB, McManus CB, Smith J, Stevens V, Nixon DW. Anthropometric measurement of muscle mass, revised equations for calculating bone-free arm muscle area. Am J Clin Nutr. 1982; 36(4):680–690.

26. Hjelmesaeth J, Hofso D, Aasheim ET, Jenssen T, Moan J, Hager H, Roislien J, Bollerslev J. Parathyroid hormone, but not vitamin D, is associated with the metabolic syndrome in morbidly obese women and men: a cross-sectional study. Cardiovasc Diabetol. 2009; 8:7.

27. Holick MF. Vitamin D deficiency. N Engl J Med. 2007; 357(3):266–281.

28. Hong KP, Kho SH. Diagnosis and drug therapy of hypertension. Diagnosis and drug therapy of hypertension. J Korean Acad Fam Med. 1992; 13(6):484–490.

29. Hwang YC, Jee JH, Oh EY, Choi YH, Lee MS, Kim KW, Lee MK. Metabolic syndrome as a predictor of cardiovascular diseases and type 2 diabetes in Koreans. Int J Cardiol. 2009; 134(3):313–321.

30. Hypponen E, Power C. Vitamin D status and glucose homeostasis in the 1958 British birth cohort: the role of obesity. Diabetes Care. 2006; 29(10):2244–2246.

31. Expert Panel on Detection, Evaluation, and Treatment of High Blood Cholesterol in Adults. Executive summary of the third report of the National Cholesterol Education Program (NCEP) expert panel on detection, evaluation, and treatment of high blood cholesterol in adults. JAMA. 2001; 285:2486–2497.

32. Khader YS, Batieha A, Jaddou H, Batieha Z, El-Khateeb M, Ajlouni K. Relationship between 25-Hydroxyvitamin D and metabolic syndrome among Jordanian adults. Nutr Res Pract. 2011; 5(2):132–139.

33. Kim DL, Kim NH, Shin DH, Kim SG, Choi KM, Kim JK, Shin C, Lee SG. Plasma leptin concentration, obesity, and insulin resistance in healthy Korean population. J Korean Diabetes Assoc. 2002; 26:100–111.

34. Kim JI, Kang MJ. Recent consumption and physiological status of vitamin D in Korean population. Food Ind Nutr. 2012; 17(2):7–10.

35. Kim KJ, Park JS, Ahn NY, Chun WK, Hong CB, Kim EJ, Park SE, Kang SH, Lee SJ. Blood concentrations of lipid profiles and leptin, bone density, and abdominal fat in adult women. Korean J Exerc Nutr. 2003; 7(3):271–276.

36. Kim MJ, Jun HY, Rha HB. Comparison of serum adiponectin levels according to body mass index and dietary behaviors of female university students in Seoul. Korean J Community Nutr. 2013; 18(4):354–364.

37. Kim MK, Il Kang M, Won Oh K, Kwon HS, Lee JH, Lee WC, Yoon KH, Son HY. The association of serum vitamin D level with presence of metabolic syndrome and hypertension in middle-aged Korean subjects. Clin Endocrinol (Oxf). 2010; 73(3):330–338.

38. Kim SJ, Park KG, Kim HK, Kim MK, Lee SW, Hwang JS, Han SW, Hur SH, Lee IK. Serum adiponectin concentration according to visceral fat amount and its relationship of metabolic risk factors in premenopausal obese women. Korean J Med. 2004; 66(3):259–266.

39. Kim YJ, Moon MS, Yang YJ, Kwon OR. Relationship between serum 25-hydroxyvitamin D concentration and the risks of metabolic syndrome in premenopausal and postmenopausal women. Korean J Nutr. 2012; 45(1):20–29.

40. Koh SB, Park JK, Yoon JH, Chang SJ, Oh SS, Kim JY, Ryu SY, Kim KS, Lee TY, You JS. Preliminary report: A serious link between adiponectin levels and metabolic syndrome in a Korean nondiabetic population. Metabolism. 2010; 59(3):333–337.

41. Kolaczynski JW, Nyce MR, Considine RV, Boden G, Nolan JJ, Henry R, Mudaliar SR, Olefsky J, Caro JF. Acute and chronic effects of insulin on leptin production in humans: studies in vivo and in vitro. Diabetes. 1996; 45(5):699–701.

42. Korean National Statistical Office. Agriculture, Foresty and Fisheries Research Report 2012. 2012.

43. Korean National Statistical Office. The statistics of mortality and the causes. 2012. cited 2013 September 25. Available from http://www.kostat.go.kr.

44. Krakoff J, Funahashi T, Stehouwer CD, Schalkwijk CG, Tanaka S, Matsuzawa Y, Kobes S, Tataranni PA, Hanson RL, Knowler WC, Lindsay RS. Inflammatory markers, adiponectin, and risk of type 2 diabetes in the Pima Indian. Diabetes Care. 2003; 26(6):1745–1751.

45. Kumada M, Kihara S, Sumitsuji S, Kawamoto T, Matsumoto S, Ouchi N, Arita Y, Okamoto Y, Shimomura I, Hiraoka H, Nakamura T, Funahashi T, Matsuzawa Y. Association of hypoadiponectinemia with coronary artery disease in men. Arterioscler Thromb Vasc Biol. 2003; 23(1):85–89.

46. Lee EJ, Kim KR, Song YD, Lee HC, Huh KB, Chung CH, Lim SK, Chung YS. Seasonal variation in serum 25-Hydroxyvitamin D in the elderly in Korean. J Korean Soc Endocrinol. 1994; 9(2):121–127.

47. Lee HC. Estimating optimum level of population in rural areas based on rural population forecasts and over-depopulation classification schemes. Korean J Rural Tourism. 2007; 14(1):159–181.

48. Lee HS, Kwun IS, Kwon CS. Anthropometric measurements and biochemical nutritional status of the older residents (50 years and over) in Andong area II. J Korean Soc Food Sci Nutr. 2008; 37(12):1599–1608.

49. Lee JH, Hong JH, Kim HJ, Park KS, Lee JM, Kim BJ, Ahn KJ, Jeong BO, Kim SH, Lee SK. A study on the relationship of serum Vitamin D levels with insulin resistance in premenopausal women. J East Asian Soc Diet Life. 2009; 19(5):713–722.

50. Lee MS, Woo MK. A study of health-related habits, dietary behaviors and the health status of the middle-aged and the elderly living in the Chonju Area(II). Korean J Community Nutr. 2002; 7(6):749–761.

51. Lee MY, Kim JH. Comparison of serum insulin, leptin, adiponectin and high sensitivity c-reactive protein levels according to body mass index and their associations in adult women. Korean J Community Nutr. 2011; 16(1):126–135.

52. Lee SE, Moon JH, Ahn JH, Oh YS, Shin SH. The association between plasma adiponectin and the components of metabolic syndrome in adults with abdominal obesity. Korean J Obes. 2007; 16(4):147–153.

53. Lim WJ, Yoon JS. A longitudinal study on seasonal variations of physical activity and body composition of rural women. Korean J Nutr. 1995; 28(9):893–903.

54. Lindsay RS, Funahashi T, Hanson RL, Matsuzawa Y, Tanaka S, Tataranni PA, Knowler WC, Krakoff J. Adiponectin and development of type 2 diabetes in the Pima Indian population. Lancet. 2002; 360(9326):57–58.

55. Lips P, Hosking D, Lippuner K, Norquist JM, Wehren L, Maalouf G, Ragi-Eis S, Chandler J. The prevalence of Vitamin D inadequacy amongst women with osteoporosis: An international epidemiological investigation. J Intern Med. 2006; 260(3):245–254.

56. Lu L, Yu Z, Pan A, Hu FB, Franco OH, Li H, Li X, Yang X, Chen Y, Lin X. Plasma 25-Hydroxyvitamin D concentration and metabolic syndrome among middle-aged and elderly Chinese individuals. Diabetes Care. 2009; 32(7):1278–1283.

57. Malabanan A, Veronikis IE, Holick MF. Redefining vitamin D insufficiency. Lancet. 1998; 351(9105):805–806.

58. Mallamaci F, Zoccali C, Cuzzola F, Tripepi G, Cutrupi S, Parlongo S, Tanaka S, Ouchi N, Kihara S, Funahashi T, Matsuzawa Y. Adiponectin in essential hypertension. J Nephrol. 2002; 15(5):507–511.

59. Martins D, Wolf M, Pan D, Zadshir A, Tareen NM, Felsenfeld A, Levine B, Mechrotra R, Norris K. Prevalence of cardiovascular risk factors and the serum levels of 25-hydroxyvitamin D in the United States: data from the Third National Health and Nutrition Examination Survey. Arch Intern Med. 2007; 167(11):1159–1165.

60. Matsuzawa Y, Funahashi T, Kihara S, Shimomura I. Adiponectin and metabolic syndrome. Arterioscler Thromb Vasc Biol. 2004; 24(1):29–33.

61. McKenna MJ. Differences in vitamin D status between countries in young adults and the elderly. AM J Med. 1992; 93(1):69–77.

62. McNeill AM, Rosamond WD, Girman CK, Golden SH, Schmidt ML, East HE. The metabolic syndrome and 11-year risk of incident cardiovascular disease in the atherosclerosis risk in communities Study. Diabetes Care. 2005; 28(2):385–390.

63. Michos ED, Melamed ML. Vitamin D and cardiovascular disease risk. Curr Opin Clin Nutr Metab Care. 2008; 11:7–12.

64. Ministry of Health and Welfare. Korea Health Statistics 2010. Korea National Health and Nutrition Examination Survey (KNHANES -1). 2011.

65. Mojiminiyi OA, Abdella NA, Arouj MA, Nakhi AB. Adiponectin, insulin resistance and clinical expression of the metabolic syndrome in patients with type 2 diabetes. Int J Obes (Lond). 2007; 31(2):213–220.

66. Motoshima H, Wu X, Sinha MK, Hardy VE, Rosato EL, Barbot DJ, Rosato FE, Goldstein BJ. Differential regulation of adiponectin secretion from cultured human omental and subcutaneous adipocytes: effects of insulin and rosiglitazone. J Clin Endocrinol Metab. 2002; 87(12):5662–5667.

67. Muoio DM, Dohm GL. Peripheral metabolic actions of leptin. Best Pract Res Clin Endocrinol Metab. 2002; 16(4):653–666.

68. Nagy TR, Gower BA, Trowbridge CA, Dezenberg C, Shewchuk RM, Goran MI. Effects of gender, ethnicity, body composition, and fat distribution on serum leptin concentrations in children. J Clin Endocrinol Metab. 1997; 82(7):2148–2152.

69. NCEP. Third report of the expert panel on detection, evaluation, and treatment of high blood cholesterol in adults. 2001.

70. Nishizawa H, Shimomura I, Kishida K, Maeda N, Kuriyama H, Nagaretani H, Matsuda M, Kondo H, Furuyama N, Kihara S, Nakamura T, Tochino Y, Funahashi T, Matsuzawa Y. Androgens decrease plasma adiponectin, an insulin-sensitizing adipocyte-derived protein. Diabetes. 2002; 51(9):2734–2741.

71. Oda N, Imamura S, Fujita T, Uchida Y, Inagaki K, Kakizawa H, Hayakawa N, Suzuki A, Takeda J, Horikawa Y, Itoh M. The ratio of leptin to adiponectin can be used as an index of insulin resistance. Metab Clin Exp. 2008; 57(2):268–273.

72. Oh JY, Hong YS, Sung YA. Association between hyperleptinemia and metabolic syndrome in an urban korean community. J Korean Diabetes Assoc. 2003; 27(4):313–322.

73. Ohashi K, Kihara S, Ouchi N, Kumada M, Fujita K, Hiuge A, Hibuse T, Ryo M, Nishizawa H, Maeda N, Maeda K, Shibata R, Walsh K, Funahashi T, Shimomura I. Adiponectin replenishment ameliorates obesity-related hypertension. Hypertension. 2006; 47(6):1108–1116.

74. Oosterwerff MM, Eekhoff EM, Heymans MW, Lips P, van Schoor NM. Serum 25-hydroxyvitamin D levels and the metabolic syndrome in older persons: a population-based study. Clin Endocrinol (Oxf). 2011; 75(5):608–613.

75. Paolisso G, Rizzo MR, Mone CM, Tagliamonte MR, Gambardella A, Riondino M, Carella C, Varricchio M, D'Onofrio F. Plasma sex hormones are significantly associated with plasma leptin concentration in healthy subjects. Clin Endocrinol (Oxf). 1998; 48(3):291–297.

76. Park HA, Kim SY. Recent advance on vitamin D. J Korean Med Assoc. 2013; 56(4):310–318.

77. Park Y. Vitamin D and atopic dermatitis. Allergy Asthma Respir Dis. 2013; 1(3):197–202.

78. Reaven GM. Do high carbohydrate diets prevent the development or attenuate the manifestations (or both) of syndrome X? A viewpoint strongly against. Curr Opin Lipidol. 1988; 8(1):23–27.

79. Ruige JB, Deckker JM, Blum WF, Stehouwer CD, Nijpels G, Mooy J, Kostense PJ, Bouter LM, Heine RJ. Leptin and variables of body adiposity, energy balance, and insulin resistance in a population-based study. The Hoorn Study. Diabetes Care. 1999; 22(7):1097–1104.

80. Ryan AS, Berman DM, Nicklas BJ, Sinha M, Gingerich RL, Meneilly GS, Egan JM, Elahi D. Plasma adiponectin and leptin levels, body composition, and glucose utilization in adult women with wide ranges of age and obesity. Diabetes Care. 2003; 26(8):2383–2388.

81. Ryo M, Nakamura T, Kihara S, Kumada M, Shibazaki S, Takahashi M, Nagaii M, Matsuzawa Y, Funahashi T. Adiponectin as a biomarker of the metabolic syndrome. Circ J. 2004; 68(11):975–981.

82. Ryu ST, Park SO, Kim SH. The relation of serum adiponectin and resistin concentrations with metabolic risk factors. J Korean Soc Endocrinol. 2005; 20(5):444–451.

83. Satoh N, Naruse M, Usui T, Tagami T, Suganami T, Yamada K, Kuzuya H, Shimatsu A, Ogawa Y. Leptin-to-adiponectin ratio as a potential atherogenic index in obese type 2 diabetic patients. Diabetes Care. 2004; 27(10):2488–2490.

84. Scragg R, Sowers M, Bell C. Serum 25-hydroxyvitamin D, ethnicity, and blood pressure in the Third National Health and Nutrition Examination Survey. Am J Hypertens. 2007; 20(7):713–719.

85. Segal K, Landt M, Klein S. Relationship between insulin sensitivity and plasma leptin concentration in lean and obese men. Diabetes. 1996; 45(7):988–991.

86. Shim WS, Kim HJ, Kang ES, Rhee YM, Ahn CW, Lim SK, Lee HC, Cha BS. The relationship between the leptin concentration and the small dense low density lipoprotein cholesterol concentration in Korean type 2 diabetic patients. J Korean Soc Endocrinol. 2006; 21(4):319–327.

87. Shin MY, Kwun IS. Vitamin D: Is it a vitamin or a hormone? Food Ind Nutr. 2012; 17(2):1–6.

88. Suh MK. Health states of the eldery and policy implications. J Korea Gerontol Soc. 1995; 15(1):28–39.

89. Tilg H, Monschen AR. Adipocyto-kines: Mediators linking adipose tissue, inflammation and immunity. Nat Rev Immunol. 2006; 6:772–783.

90. Tsou PL, Jiang YD, Chang CC, Wei JN, Sung FC, Lin CC, Chiang CC, Tai TY, Chuang LM. Sex-related differences between adiponectin and insulin resistance in schoolchildren. Diabetes Care. 2004; 27(2):308–313.

91. Wannamethee SG, Shaper AG, Lennon L, Morris RW. Metabolic syndrome vs Framinham Risk Score for predication of coronary heart disease, stroke, and type 2 diabetes mellitus. Arch Intern Med. 2005; 165(22):2644–2650.

92. Weyer C, Funahashi T, Tanaka S, Hotta K, Matsuzawa Y, Pratley RE, Tataranni PA. Hypoadiponectinemia in obesity and type 2 diabetes: close association with insulin resistance and hyperinsulinemia. J Clin Endocrinol Metab. 2001; 86(5):1930–1935.

93. World Health Organization. Obesity. Preventing and managing the global epidemic : Report of a WHO Consultation on Obesity. Geneva: 1998.

94. Yamauchi T, Kamon J, Minokoshi Y, Ito Y, Waki H, Uchida S, Yamashita S, Noda M, Kita S, Ueki K, Eto K, Akanuma Y, Froguel P, Foufelle F, Ferre P, Carling D, Kimura S, Nagai R, Kahn BB, Kadowaki T. Adiponectin stimulates glucose utilization and fatty-acid oxidation by activating AMP-activated protein kinase. Nat Med. 2002; 8:1288–1295.

95. Yamauchi T, Kamon J, Waki H, Terauchi Y, Kubota N, Hara K, Mori Y, Ide T, Murakami K, Tsuboyama-Kasaoka N, Ezaki O, Akanuma Y, Gavrilova O, Vinson C, Reitman ML, Kagechika H, Shudo K, Yoda M, Nakano Y, Tobe K, Nagai R, Kimura S, Tomita M, Froguel P, Kadowaki T. The fat-derived hormone adiponectin reverses insulin resistance associated with both lipoatrophy and obesity. Nat Med. 2001; 7:941–946.

96. Yoo KH, Oh IM, Park JE, Park JS, Park SJ, Jang EJ, Park SW, Kim SJ, Yoon YS, Joung HJ, Baik HW. Metabolic syndrome is associated with low adiponectin level and increased insulin resistance in apparently healthy Koreans. Korean J Obes. 2012; 21(3):175–182.

97. Yoon SJ, Lee SW, Tun JE, Kim SY, Cho ER, Lee SJ, Jee EJ, Lee HY, Park JY, Kim HS, Jee SH. The association between adiponectin and diabetes in the Korean population. Metabolism. 2008; 57:853–857.

98. Zhuo Q, Wang Z, Fu P, Piao J, Tian Y, Xu J, Yang X. Comparison of adiponectin, leptin and leptin to adiponectin ratio as diagnostic marker for metabolic syndrome in older adults of Chinese major cities. Diabetes Res Clin Pract. 2009; 84(1):27–33.

99. Zoccali C, Mallamaci F, Tripepi G, Benedetto FA, Cutrupi S, Parlongo S, Malatino LS, Bonanno G, Seminara G, Rapisarda F, Fatuzzo P, Buemi M, Nicocia G, Tanaka S, Ouchi N, Kihara S, Funahashi T, Matsuzawa Y. Adiponectin, metabolic risk factors, and cardiovascular events among patients with end-stage renal disease. J Am Soc Nephrol. 2002; 13(1):134–141.

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