Popis: |
Background Increased aortic stiffness (arteriosclerosis) is associated with early vascular aging independent of age and sex. The underlying mechanisms of early vascular aging remain largely unexplored in the general population. We aimed to investigate the plasma metabolomic profile in aortic stiffness (vascular aging) and associated risk of incident cardiovascular disease and mortality. Methods and Results We included 6865 individuals from 2 Swedish population‐based cohorts. Untargeted plasma metabolomics was performed by liquid‐chromatography mass spectrometry. Aortic stiffness was assessed directly by carotid‐femoral pulse wave velocity (PWV) and indirectly by augmentation index (AIx@75). A least absolute shrinkage and selection operator (LASSO) regression model was created on plasma metabolites in order to predict aortic stiffness. Associations between metabolite‐predicted aortic stiffness and risk of new‐onset cardiovascular disease, cardiovascular mortality, and all‐cause mortality were calculated. Metabolite‐predicted aortic stiffness (PWV and AIx@75) was positively associated particularly with acylcarnitines, dimethylguanidino valeric acid, glutamate, and cystine. The plasma metabolome predicted aortic stiffness (PWV and AIx@75) with good accuracy (R2=0.27 and R2=0.39, respectively). Metabolite‐predicted aortic stiffness (PWV and AIx@75) was significantly correlated with age, sex, systolic blood pressure, body mass index, and low‐density lipoprotein. After 23 years of follow‐up, metabolite‐predicted aortic stiffness (PWV and AIx@75) was significantly associated with increased risk of new‐onset coronary artery disease, cardiovascular mortality, and all‐cause mortality. Conclusions Aortic stiffness is associated particularly with altered metabolism of acylcarnitines, cystine, and dimethylguanidino valeric acid. These metabolic disturbances predict increased risk of new‐onset coronary artery disease, cardiovascular mortality, and all‐cause mortality after more than 23 years of follow‐up in the general population. |