Abstract
BackgroundTortuous coronary arteries are commonly observed in clinical screenings and it may cause a reduction of the coronary pressure. However, whether this reduction leads to significant decreasing in the coronary blood supply is still unknown. The purpose of this study was to investigate the effect of the coronary tortuosity (CT) on the coronary blood supply.MethodA computational fluid dynamics (CFD) study was conducted to evaluate the impact of tortuosity on the coronary blood supply. Two patient-specific left anterior descending coronary artery (LAD) models and the corresponding non-tortuous models were reconstructed to perform three-dimensional CFD analysis. The lumped parameter model was coupled to the outlet of the simulated branches to represent the absent downstream vasculatures. The rest and exercise conditions were modeled by specifying proper boundary conditions.ResultUnder resting condition, the mean flow rate could be maintained by decreasing less than 8% of the downstream vascular bed's resistance for tortuous models. While during exercise (maximal dilatation condition), the maximal coronary blood supply would reduce up to 14.9% due to tortuosity. Assuming that the flow rate can be maintained by the auto-regulation effect under the maximal dilatation condition, the distal resistances for CT models still have to reduce more than 23% to maintain blood perfusion.ConclusionsCoronary tortuosity has minor influence on coronary blood supply at rest; while during exercise, patients with CT may lack the ability to adjust distal resistance sufficiently to compensate for the extra resistances generated by tortuosity and this may further lead to an ineffective regulation of the blood supply.
Highlights
Arteries are normally straight to efficiently transport blood to distal organs
Coronary tortuosity has minor influence on coronary blood supply at rest; while during exercise, patients with coronary tortuosity (CT) may lack the ability to adjust distal resistance sufficiently to compensate for the extra resistances generated by tortuosity and this may further lead to an ineffective regulation of the blood supply
CT is associated with reversible myocardial perfusion defects and chronic stable angina [5,6]
Summary
Arteries are normally straight to efficiently transport blood to distal organs. arteries may become tortuosity as a result of arterial remodeling [1]. Tortuosity is widely observed in coronary arteries [1,2,3]. The etiology and clinical importance of the coronary tortuosity (CT) are still unclear. Clinical observations have linked CT to aging, atherosclerosis, hypertension and diabetes mellitus [1,2]. Tortuous coronary arteries are commonly observed in clinical screenings and it may cause a reduction of the coronary pressure. Whether this reduction leads to significant decreasing in the coronary blood supply is still unknown. The purpose of this study was to investigate the effect of the coronary tortuosity (CT) on the coronary blood supply
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