Abdominal aortic aneurysm (AAA) is a life-threatening condition involving the permanent dilation of the aorta, often detected incidentally through imaging for some other condition. The standard clinical approach to managing AAA follows a one-size-fits-all model based on aneurysm size and growth rate, leading to underestimation or overestimation of rupture risk in individual patients. The widely studied stress-based rupture risk estimation using computational biomechanics requires wall strength information. However, non-invasive methods for local patient-specific wall strength measurement have not yet been developed. Recently, we introduced an image-based approach for patient-specific, in vivo, non-invasive AAA kinematic analysis using time-resolved 3D computed tomography angiography (4D-CTA) images to measure wall strain throughout the cardiac cycle. In the present study, we integrated wall tension computation and strain measurement to develop a novel measure of local structural integrity of AAA wall - Relative Structural Integrity Index (RSII), independent of material properties and thickness of the wall and conditions of blood pressure measurement. Our methods provide a visual map of AAA wall structural integrity for individual patients using only their medical images and blood pressure data. We applied our methods to twelve patients. Additionally, we compared our measure of structural integrity of aneurysmal and non-aneurysmal aortas. Our results show similar values of the wall structural integrity measure across the patients, indicating the reliability of our methods. In line with experimental observations reported in the literature, our analysis revealed that localized low stiffness areas are primarily found in the most dilated AAA regions. Our results clearly demonstrate that the AAA wall is stiffer than the non-aneurysmal aorta.
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