Avaliação do metabolismo de lipídes em diabéticos tipo 1, normolipidêmicos e sem complicações microvasculares e macrovasculares significativas através de nanoemulsão lipídica artificial / Evaluation of lipid metabolism in normolipidemic type 1 diabetes individuals without significant clinical microvascular and macrovascular complications through artificial lipid nanoemulsion

AUTOR(ES)
DATA DE PUBLICAÇÃO

2008

RESUMO

INTRODUTION: people with type 1 diabetes mellitus (DM1) have progressively neuro-vascular complications. Factors that increase the risk of coronary artery disease hypertension, dislipidemia and advanced age explains part of increased cardiovascular mortality, however some DM1 died of early coronary artery disease and often do not have atherosclerosis classical risk factors. Structural and functional changes in lipoproteins, altering their composition and activities of lipid exchange could justify the increase in vascular events but these changes are generally not detected by routine clinical laboratory plasma lipid exams. OBJETIVES: in normolipidemic DM1, intensively treated and without significant complications of disease we evaluated, by an artificial lipid nanoemulsion that resembles the lipid structure of LDL, rates of cholesterol esterification, nanoemulsion removal of the circulation, HDL particle size and lipid transfer from nanoemulsion to HDL. Secondarily, we determine the influence of glycemic control, insulin resistance (IR) and insulinization on lipid metabolism. METHODS: we studied 36 diabetics and 37 non-diabetic controls paired by age, sex and body mass index. Artificial lipid nanoemulsion labeled with radioactive lipids cholesterol ester (CE), cholesterol (CL), phospholipids (PL) and triglycerides (TG) was used for studies. Intravenous infusion of nanoemulsion 14C-CE e 3H-CL was injected in participants and blood was sampled over 24 hours for radioactivity measurement. Circulation lipid removal was calculated through compartmental analysis. Rate of cholesterol esterification was calculated after lipid extraction and separation by thin-layer chromatography. Nanoemulsion was incubated with plasma and radioactivity of lipids 14C-EC, 3H-CL, 14C-PL and 3H-TG transferred to the HDL was quantified after the precipitation of other apoB lipoproteins. The HDL diameter was measured by laser light scattering. The insulin resistance in diabetic patients was measured by formula that estimates the rate of uptake of glucose. RESULTS: glycated hemoglobin was 8,8±1,3 mg/dl and LDL concentrations were lower in diabetic patients (85 ± 22 vs. 98 ± 26 mg / dl), p = 0035. There were no differences between groups regarding rates of cholesterol esterification, lipids transfer from nanoemulsion to HDL and HDL particle size. We found no relationship between the kinetic analyses and HbA1c, blood glucose, measures of IR and dose of insulin. The rate of removal of 14C-EC was faster in diabetics type 1 than controls (0.059 ± 0.022 vs.0.039 ± 0.022 h- 1), p = 0.019. CONCLUSIONS: despite suboptimal glycemic control in diabetics, lipids transfer from nanoemulsion to HDL, rate of cholesterol esterification and removal of 3H-CL are similar to those of non-diabetic individuals. Glycemic control, lipid profile, measures of IR and dose of insulin did not influence lipids transfer and rate of cholesterol esterification. Removal of 14C-EC from diabetic circulation is faster than controls which could justify the 18 lower LDL concentration found in this population. We believe that intensive insulin therapy could explain these findings

ASSUNTO(S)

colesterol ldl kinetic type 1 diabetes mellitus hdl cholesterol lipoprotein colesterol hdl insulin aterosclerose lipoproteínas insulina atherosclerosis diabetes mellitus tipo 1 cinética ldl cholesterol

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