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A Combined In Vivo, In Vitro, In Silico Approach for Patient-Specific Haemodynamic Studies of Aortic Dissection

Mirko Bonfanti, Gaia Franzetti, Shervanthi Homer‐Vanniasinkam, Vanessa Díaz‐Zuccarini, Stavroula Balabani

2020Annals of Biomedical Engineering42 citationsDOIOpen Access PDF

Abstract

The optimal treatment of Type-B aortic dissection (AD) is still a subject of debate, with up to 50% of the cases developing late-term complications requiring invasive intervention. A better understanding of the patient-specific haemodynamic features of AD can provide useful insights on disease progression and support clinical management. In this work, a novel in vitro and in silico framework to perform personalised studies of AD, informed by non-invasive clinical data, is presented. A Type-B AD was investigated in silico using computational fluid dynamics (CFD) and in vitro by means of a state-of-the-art mock circulatory loop and particle image velocimetry (PIV). Both models not only reproduced the anatomical features of the patient, but also imposed physiologically-accurate and personalised boundary conditions. Experimental flow rate and pressure waveforms, as well as detailed velocity fields acquired via PIV, are extensively compared against numerical predictions at different locations in the aorta, showing excellent agreement. This work demonstrates how experimental and numerical tools can be developed in synergy to accurately reproduce patient-specific AD blood flow. The combined platform presented herein constitutes a powerful tool for advanced haemodynamic studies for a range of vascular conditions, allowing not only the validation of CFD models, but also clinical decision support, surgical planning as well as medical device innovation.

Topics & Concepts

Aortic dissectionIn silicoParticle image velocimetryHemodynamicsComputer scienceComputational fluid dynamicsAortaBiomedical engineeringMedicineCardiologyChemistryPhysicsMechanicsGeneTurbulenceBiochemistryAortic Disease and Treatment ApproachesCardiac Valve Diseases and TreatmentsAortic aneurysm repair treatments
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