Proton magnetic resonance spectroscopy (1H-MRS) can detect and quantify lipid accumulation in specific myocardial or peri-myocardial districts. Thirty-three patients (20M/13F; BMI 26±4 kg/m2; 64±10 years) with suspect of CV diseases underwent 1.5-T 1H-MRS using a water-suppressed chemical-shift imaging sequence to quantify the lipid profile of SEP, epicardial (EAT), pericardial (PAT), and subcutaneous (SAT) adipose tissues. The integral of the lipid peaks at 0.9, 1.3, 2.0, 5.3 ppm was measured as percentage over the total amount of lipids (Table). A subgroup of 15 subjects were identified as HG (12 impaired-fasting-glucose and 3 diabetics: 121±26 mg/dL). Bulk methylene (1.3 ppm) of SEP was higher in HG vs. other patients (P=0.047). In HG patients, SEP was positively correlated to glucose, visceral fat, C-reactive protein (Spearman ρ>0.63, P<0.018); EAT was positively correlated to visceral fat, age, body weight, and inversely to muscular-, fat free-, bone mass (Pearson ρ<|0.53|, P>0.039). In all subjects, the main lipid peaks correlated with metabolic parameters.1H-MRS allowed to measure lipid peaks in different adipose compartments with cardiometabolic relevance. SEP resulted a myocardial site associated with biomarkers of secondary heart events in pre/diabetic patients at higher risk of CV episodes. High SEP fat may be proposed as a marker of future CV events.
1H-MRS Lipid Spectra of Interventricular Septum (SEP): A Novel Marker of Cardiovascular (CV) Events in Hyperglycemic (HG) Patients / R. Codella, G.D. Leo, M. Zanardo, S. Schiaffino, S.D. Fabiano, C.B. Monti, M. Codari, L. Luzi, F. Sardanelli. - In: DIABETES. - ISSN 0012-1797. - 68:Suppl.1(2019 Jun 01). (Intervento presentato al 79. convegno American Diabetes Association Scientific Session tenutosi a San Francisco (CA, USA) nel 2019) [10.2337/db19-458-P].
1H-MRS Lipid Spectra of Interventricular Septum (SEP): A Novel Marker of Cardiovascular (CV) Events in Hyperglycemic (HG) Patients
R. CodellaPrimo
;M. Zanardo;C.B. Monti;M. Codari;L. LuziPenultimo
;F. Sardanelli
Ultimo
2019
Abstract
Proton magnetic resonance spectroscopy (1H-MRS) can detect and quantify lipid accumulation in specific myocardial or peri-myocardial districts. Thirty-three patients (20M/13F; BMI 26±4 kg/m2; 64±10 years) with suspect of CV diseases underwent 1.5-T 1H-MRS using a water-suppressed chemical-shift imaging sequence to quantify the lipid profile of SEP, epicardial (EAT), pericardial (PAT), and subcutaneous (SAT) adipose tissues. The integral of the lipid peaks at 0.9, 1.3, 2.0, 5.3 ppm was measured as percentage over the total amount of lipids (Table). A subgroup of 15 subjects were identified as HG (12 impaired-fasting-glucose and 3 diabetics: 121±26 mg/dL). Bulk methylene (1.3 ppm) of SEP was higher in HG vs. other patients (P=0.047). In HG patients, SEP was positively correlated to glucose, visceral fat, C-reactive protein (Spearman ρ>0.63, P<0.018); EAT was positively correlated to visceral fat, age, body weight, and inversely to muscular-, fat free-, bone mass (Pearson ρ<|0.53|, P>0.039). In all subjects, the main lipid peaks correlated with metabolic parameters.1H-MRS allowed to measure lipid peaks in different adipose compartments with cardiometabolic relevance. SEP resulted a myocardial site associated with biomarkers of secondary heart events in pre/diabetic patients at higher risk of CV episodes. High SEP fat may be proposed as a marker of future CV events.
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