Ascending aortic aneurysm haemodynamics are associated with aortic wall biomechanical properties

OBJECTIVES The effect of aortic haemodynamics on arterial wall properties in ascending thoracic aortic aneurysms (ATAAs) is not well understood. We aim to delineate the relationship between shear forces along the aortic wall and loco-regional biomechanical properties associated with the risk of aortic dissection. METHODS Five patients with ATAA underwent preoperative magnetic resonance angiogram and four-dimensional magnetic resonance imaging. From these scans, haemodynamic models were constructed to estimate maximum wall shear stress (WSS), maximum time-averaged WSS, average oscillating shear index and average relative residence time. Fourteen resected aortic samples from these patients underwent bi-axial tensile testing to determine energy loss (Delta UL) and elastic modulus (E10) in the longitudinal (Delta ULlong, E10long) and circumferential (Delta ULcirc, E10circ) directions and the anisotropic index (AI) for each parameter. Nine resected aortic samples underwent peel testing to determine the delamination strength (Sd). Haemodynamic indices were then correlated to the biomechanical properties. RESULTS A positive correlation was found between maximum WSS and Delta ULlong rs=0.75, P = 0.002 and AI Delta UL (rs=0.68, P=0.01). Increasing maximum time-averaged WSS was found to be associated with increasing Delta ULlong (rs=0.73, P = 0.003) and AI Delta UL (rs=0.62, P=0.02). Average oscillating shear index positively correlated with Sd (rs=0.73,P=0.04). No significant relationship was found between any haemodynamic index and E10, or between relative residence time and any biomechanical property. CONCLUSIONS Shear forces at the wall of ATAAs are associated with local degradation of arterial wall viscoelastic hysteresis (Delta UL) and delamination strength, a surrogate for aortic dissection. Haemodynamic indices may provide insights into aortic wall integrity, ultimately leading to novel metrics for assessing risks associated with ATAAs.

Automated summary

The hemodynamics in ascending thoracic aortic aneurysms (ATAAs) have an effect on arterial wall properties and are associated with the risk of aortic dissection. Hemodynamic indices may provide insights into aortic wall integrity and lead to novel metrics for assessing risks associated with ATAAs.