ObjectiveAccumulation of epicardial adipose tissue (EAT) is considered to be a cardiovascular risk factor independent from visceral adiposity, obesity, hypertension and diabetes. We explored the parameters related to EAT accumulation, aiming to clarify the novel pathophysiological roles of EAT in subjects with type 2 diabetes (T2DM).MethodsWe examined the laboratory values, including cystatinC, and surrogate markers used for evaluating atherosclerosis. EAT was measured as the sum of the adipose tissue area, obtained by plain computed tomography scans in 208 subjects with T2DM but no history of coronary artery disease.ResultsEAT correlated positively with age, body mass index (BMI), visceral fat area, leptin, cystatin C and C-peptide, while correlating negatively with adiponectin, estimated glomerular filteration rate (eGFR) and the liver-to-spleen ratio. Multiple linear regression analysis revealed serum cystatin C (β = 0.175), leptin (β = 0.536), BMI (β = 0.393) and age (β = 0.269) to be the only parameters showing independent statistically significant associations with EAT. When cystatin C was replaced with eGFR, eGFR showed no significant correlation with EAT. In reverse analysis, serum cystatin C was significantly associated with EAT after adjustment in multivariate analysis.DiscussionEAT accumulation and elevated cystatin C have been independently regarded as risk factors influencing atherosclerosis. The strong association between EAT and cystatin C demonstrated herein indicates that EAT accumulation may play an important role in Cystatin C secretion, possibly contributing to cardiometabolic risk in T2DM patients.
SummaryIntroductionCo‐existing decreased muscle mass and increased visceral fat, an age‐associated change called sarcopenic obesity, results in fragility and cardiovascular disease. To assess the pathogenesis of sarcopenic obesity, we assessed the associations of clinical parameters with psoas muscle mass in elderly male subjects with obesity and type 2 diabetes.MethodsThe subjects were 55 patients, over 65 years of age and with a visceral fat area exceeding 100 cm2, with type 2 diabetes. The cross‐sectional area of the psoas muscle is considered to provide an estimation of overall muscle mass. Sarcopenia was considered to be present when the total psoas muscle area was low, defined as a value below 500 mm2 m−2 on a computed tomographic scan.ResultsThe maximum intima‐media thickness (max IMT) and urinary 8‐isoprostane values were significantly higher in the sarcopenic group. Multiple linear regression analysis revealed max IMT to be an independent variable related to muscle mass decline. In addition, logistic analysis showed max IMT and urinary 8‐isoprostane to be variables independently contributing to total psoas muscle area <500 mm2 m−2.ConclusionWorsening surrogate markers for systemic oxidative stress and atherosclerosis were associated with declining muscle mass in elderly subjects with obesity and type 2 diabetes. These results indicate that systemic oxidative stress is among the mechanisms underlying atherosclerosis development in subjects with sarcopenic obesity.
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