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Plasma total homocysteine and macrovascular complications are associated with food and nutrient intake in patients with Type II diabetes mellitus  

Chang, Nam-Soo (Department of Nutritional Sciences, Ewha Womans University)
Kim, Ji-Myung (Department of Nutritional Sciences, Ewha Womans University)
Kim, Hye-Sook (Department of Nutritional Sciences, Ewha Womans University)
Cho, Yong-Wook (Department of Internal Medicine, Pochon CHA University College of Medicine)
Publication Information
Nutrition Research and Practice / v.1, no.2, 2007 , pp. 79-83 More about this Journal
Abstract
The present study was conducted to document the association between plasma homocysteine levels and the presence of macrovascular angiopathy with food and nutrient intake patterns among patients with Type II diabetes mellitus in Korea. Plasma total homocysteine concentration was analyzed by HPLC-fluorescence detector method in 127 patients with non-insulin dependent diabetes mellitus. Logistic regression analyses were performed respectively to study the association of plasma homocysteine levels with clinical and dietary characteristics and macroangiopathy (MA). The average plasma homocysteine level of patients with MA was $14.2{\mu}mol/l$, which was significantly higher than that of patients without MA ($11.4{\mu}mol/l$). The proportions of patients with MA showed a significant difference, being 32.3% in hyperhomocysteinemic ($>14.0{\mu}mol/l$) patients and 13.5% in others with homocysteine levels lower than $14.0{\mu}mol/l$. Odds ratios for macroangiopathy by tertile increase of plasma homocysteine concentration were 1.633 ($Q_2$) and 4.831 ($Q_3$), when adjusted for age, sex, and cigarette smoking. Patients with MA consumed reduced amounts of vitamin $B_1,\;B_2$, and folate. The results indicate that the plasma homocysteine levels are significantly increased in NIDDM patients who have macroangiopathy. Dietary management such as increased fruits and vegetables and decreased potatoes and starches might be beneficial for the prevention of macroangiopathy in diabetic patients.
Keywords
Hyperhomocysteinemia; macroangiopathy; vitamin B; fruits; non-insnlin dependent diabetes mellitus;
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1 Berwanger CS, Jeremy JY & Stansby G (1995). Homocysteine and vascular disease. Br J Surg 82:726-731   DOI   ScienceOn
2 Jacques PF, Bostrom AG, Wilson PWF, Rich S, Rosenberg IH & Selhub J (2001). Determinants of plasma total homocysteine concentration in the Framingham Offspring cohort. Am J Clin Nutr 73:613-621   DOI
3 Korean Nutrition Society (2005). Korean Dietary Reference Intakes. Kookjin Publishing Co., Seoul. Republic of Korea
4 Park JY, Lee KU, Kim CH, Kim HK, Hong SK, Park KS, Lee HK & Min HK (1997). Past and current obesity in Koreans with non-insulin-dependent diabetes mellitus. Diabetes Res Clin Pract 35:49-56   DOI   ScienceOn
5 Selhub J, Jacques PF, Wilson PWF, Rush D & Rosenberg IH (1993b). Vitamin status and intake as primary determinants of homocysteinemia in an elderly population. J Am Med Assoc 272: 2703-2708
6 Vaccaro O, Ingrosso D, Rivellese A, Greco G & Riccardi G (1997). Moderate hyperhomocysteinemia and retinopathy in insulin dependent diabetes. Lancet 349:1102-1103
7 Tan PS, Wenlock RW & Buss DH (1984). Folic acid content of the diet in various types of British household. Hum Nutr App Nutr 38:17-22
8 Hofmann MA, Kohl B, Zumbach MS, Borcea V, Bierhaus A, Henkels M, Amiral J, Schmidt AM, Fiehn W, Ziegler R, Wahl P & Nawroth PP (1998). Hyperhomocysteinemia and endothelial dysfunction in IDDM. Diabetes Care 2:841-848
9 Araki A, Sako Y & Ito H (1993). Plasma homocysteine concentrations in Japanese patients with non-insulin-dependent diabetes mellitus: effect of parenteral methylcobalamine treatment. Atherosclerosis 103:149-157   DOI
10 Hultberg B, Agardh E, Andersson A, Brattstrom L, Isaksson A, Israelsson B & Agardh CD (1991). Increased levels of plasma homocysteine associated with nephropathy, but not severe retinopathy in type I diabetes mellitus. Scand J Clin Lab Invest 51:277[Abstract]   DOI
11 Ubbink JB, Vermaak WJH & Bissbort S (1991). Rapid high performance liquid chromatographic assay for total homocysteine levels in human serum. J Chromatogr 565:441-446   DOI   ScienceOn
12 De Bree A, Verschuren WMM, Blom HJ & Kromhout D (2001). Association between B vitamin intake and plasma homocysteine concentration in the general Dutch population aged 20-65y. Am J Clin Nutr 73:1027-1033   DOI
13 Araki A & Sako Y (1987). Determination of free and total homocysteine in human plasma by high-performance liquid chromatography with fluorescence detection. J Chromatogr 422:43-52   DOI   ScienceOn
14 Konstantinova SV, Vollset SE, Berstad P, Ueland PM, Drevon CA, Refsum H & Tell GS (2007). Dietary predictors of plasma total homocysteine in the Hordaland Homocysteine Study. Br J Nutr 98:201-210   DOI   ScienceOn
15 Rees MM & Rodgers GM (1993). Homocysteinemia: association of a metabolic disorder with vascular disease and thrombosis. Thromb Res 71:337-359   DOI   ScienceOn
16 Robinson K, Mayer EL, Miller DP, Green R, van Lente F, Gupta A, Kottke-Marchant K, Savon SR, Selhub J, Nissen SE, Kutner M, Topol EJ & Jacobsen DW (1995). Hyperhomocysteinemia and low pyridoxal phosphate common and independent reversible risk factors for coronary artery disease. Circulation 92:2825-2830   DOI
17 Ubbink JB (1994). Vitamin nutrition status and homocysteine: an atherogenic risk factor. Nutr Rev 52:383-393   DOI   ScienceOn
18 Bogers RP, Dagnelie PC, Bast A, van Leeuwen M, van Klaveren JD& van den Brandt PA (2007). Effect of increased vegetable and fruit consumption on plasma folate and homocysteine concentrations. Nutriton 23:97-102
19 Bermejo LM, Aparicio A, Andres P, Lopez-Sobaler AM & Ortega RM (2007). The influence of fruit and vegetable intake on the nutritional status and plasma homocysteine levels of institutionalised elderly people. Public Health Nutr 10:266-272
20 Stampfer MJ & Malinow MR (1995). Can lowering homocysteine levels reduce cardiovascular risk? N Engl J Med 332:328-329   DOI   ScienceOn
21 Munshi MN, Stone A, Fink L & Fonseca V (1996). Hyperhomocysteinemia following a methionine load in patients with non-insulin-dependent diabetes mellitus and macrovascular disease. Metabolism 45:133-135   DOI   ScienceOn
22 Hoogeveen EK, Kostense PJ, Beks PJ, Mackaay AJC, Jakobs C, Bouter LM, Heine RJ & Stehouwer CDA (1998). Hyperhomocysteinemia is associated with an increased risk of cardiovascular disease, especially in non-insulin-dependent diabetes mellitus a population-based study. Arterioscler Thromb Vasc Biol 18:133- 138   DOI
23 Hatzis CM, Bertsias GK, Linardakis M, Scott JM & Kafatos AG (2006). Dietary and other lifestyle correlates of serum folate concentrations in a healthy adult population in Crete, Greece: a cross-sectional study. Nutr J 5:5   DOI   ScienceOn
24 Paterson E, Gordon MH, Niwat C, George TW, Parr L, Waroonphan S & Lovegrove JA (2006). Supplementation with fruit and vegetable soups and beverages increases plasma carotenoid concentrations but does not alter markers of oxidative stress or cardiovascular risk factors. J Nutr 136:2849-2855
25 Masser PA, Taylor LM & Porter JM (1994). Importance of elevated plasma homocysteine levels as a risk factor for atherosclerosis. Ann Thorac Surg 58:1240-1246   DOI   ScienceOn
26 Selhub J, Jacques PF, Wilson PWF, Rush D & Rosenberg IH (1993a). Vitamin status and intake as primary determinants of homocysteinemia in an elderly population. J Am Med Assoc 270:2693- 2698   DOI