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A Novel Method for In Vitro 3D Imaging of Dissecting Pressurized Arterial Segments Using X-Ray Microtomography

Joseph Brunet, Baptiste Pierrat, Jérôme Adrien, Éric Maire, Nicolas Curt, Pierre Badel

2020Experimental Mechanics17 citationsDOIOpen Access PDF

Abstract

Abstract Background: It is commonly admitted that a dissection initiates with an intimal tear or at least a defect inside the arterial wall. Nevertheless, few studies investigated the initiation sequence due to the difficulty to monitor this process. Objective: The objective of this work was to observe and investigate the mechanisms leading an intimal tear to propagate into a dissection. Methods: A custom-made tension-inflation device fitting inside an X-ray microtomography setup was designed. A notch was created inside a porcine carotid artery before performing the tension-inflation test. The X-ray tomography setup allowed observing the wall-structure and the notch behavior during the inflation of the carotid artery. Results: A quantitative description of the notch morphology was performed, suggesting the prevalence of high shear stress in the region of the crack tip as a possible trigger for propagation of a dissection. Conclusions: The present experimental approach allowed understanding better the mechanisms leading to dissection and constitutes a first step toward the improvement of failure modeling and risk assessment of this disease.

Topics & Concepts

Dissection (medical)X-ray microtomographyTension (geology)Materials scienceCarotid arteriesBiomedical engineeringShear stressSolid mechanicsRadiologyMedicineCardiologyComposite materialUltimate tensile strengthAortic Disease and Treatment ApproachesAortic aneurysm repair treatmentsCardiac Valve Diseases and Treatments
A Novel Method for In Vitro 3D Imaging of Dissecting Pressurized Arterial Segments Using X-Ray Microtomography | Litcius