PURPOSE: We aimed to assess the association between features of epicardial adipose tissue and demographic, morphometric and clinical data, in a large population of symptomatic patients with clinical indication to cardiac computed tomography (CT) angiography. METHODS: Epicardial fat volume (EFV) and adipose CT density of 1379 patients undergoing cardiac CT angiography (918 men, 66.6%; age range, 18-93 years; median age, 64 years) were semi-automatically quantified. Clinical variables were compared between diabetic and nondiabetic patients to assess potential differences in EFV and adipose CT density. Multiple regression models were calculated to find the clinical variables with a significant association with EFV and adipose CT density. RESULTS: The median EFV in diabetic patients (112.87 mL) was higher compared with nondiabetic patients (82.62 mL; P < 0.001). The explanatory model of the multivariable analysis showed the strongest associations between EFV and BMI (β=0.442) and age (β=0.365). Significant yet minor association was found with sex (β=0.203), arterial hypertension (β=0.072), active smoking (β=0.068), diabetes (β=0.068), hypercholesterolemia (β=0.046) and cardiac height (β=0.118). The mean density of epicardial adipose tissue was associated with BMI (β=0.384), age (β=0.105), smoking (β=0.088), and diabetes (β=0.085). CONCLUSION: In a large population of symptomatic patients, EFV is higher in diabetic patients compared with nondiabetic patients. Clinical variables are associated with quantitative features of epicardial fat.
PURPOSE: We aimed to assess the association between features of epicardial adipose tissue and demographic, morphometric and clinical data, in a large population of symptomatic patients with clinical indication to cardiac computed tomography (CT) angiography. METHODS: Epicardial fat volume (EFV) and adipose CT density of 1379 patients undergoing cardiac CT angiography (918 men, 66.6%; age range, 18-93 years; median age, 64 years) were semi-automatically quantified. Clinical variables were compared between diabetic and nondiabeticpatients to assess potential differences in EFV and adipose CT density. Multiple regression models were calculated to find the clinical variables with a significant association with EFV and adipose CT density. RESULTS: The median EFV in diabeticpatients (112.87 mL) was higher compared with nondiabeticpatients (82.62 mL; P < 0.001). The explanatory model of the multivariable analysis showed the strongest associations between EFV and BMI (β=0.442) and age (β=0.365). Significant yet minor association was found with sex (β=0.203), arterial hypertension (β=0.072), active smoking (β=0.068), diabetes (β=0.068), hypercholesterolemia (β=0.046) and cardiac height (β=0.118). The mean density of epicardial adipose tissue was associated with BMI (β=0.384), age (β=0.105), smoking (β=0.088), and diabetes (β=0.085). CONCLUSION: In a large population of symptomatic patients, EFV is higher in diabeticpatients compared with nondiabeticpatients. Clinical variables are associated with quantitative features of epicardial fat.
Authors: Rajinder P Singh-Moon; Soo Young Park; Diego M Song Cho; Agastya Vaidya; Charles C Marboe; Elaine Y Wan; Christine P Hendon Journal: Biomed Opt Express Date: 2020-07-08 Impact factor: 3.732
Authors: David Molnar; Olof Enqvist; Johannes Ulén; Måns Larsson; John Brandberg; Åse A Johnsson; Elias Björnson; Göran Bergström; Ola Hjelmgren Journal: Sci Rep Date: 2021-12-13 Impact factor: 4.379
Authors: João Adriano Sousa; Maria Isabel Mendonça; Marco Serrão; Sofia Borges; Eva Henriques; Sónia Freitas; Margarida Tentem; Marina Santos; Pedro Freitas; António Ferreira; Graça Guerra; António Drumond; Roberto Palma Reis Journal: Clin Med Insights Cardiol Date: 2021-07-03
Authors: Emilie H Zobel; Regitse Højgaard Christensen; Signe A Winther; Philip Hasbak; Christian Stevns Hansen; Bernt J von Scholten; Lene Holmvang; Andreas Kjaer; Peter Rossing; Tine W Hansen Journal: Cardiovasc Diabetol Date: 2020-02-10 Impact factor: 9.951