Computational Study of Pulmonary Flow Patterns after Repair of Transposition of Great Arteries

• Main Authors: Capuano, Francesco, Loke, Yue-Hin, Cronin, Ileen, Olivieri, Laura J, Balaras, Elias
• Format: Journal Article
• Language: English
• Published: 17.09.2018
• Subjects: Physics - Biological Physics; Physics - Fluid Dynamics; Physics - Medical Physics
• DOI: 10.48550/arxiv.1809.06355

Patients that undergo the arterial switch operation (ASO) to repair transposition of great arteries (TGA) can develop abnormal pulmonary trunk morphology with significant long-term complications. In this study, cardiovascular magnetic resonance was combined with computational fluid dynamics to investigate the impact of the post-operative layout on the pulmonary flow patterns. Three ASO patients were analyzed and compared to a normal control. Results showed the presence of anomalous shear layer instabilities, vortical and helical structures, and turbulent-like states in all patients, particularly as a consequence of the unnatural curvature of the pulmonary bifurcation. Streamlined, mostly laminar flow was instead found in the healthy subject. These findings shed light on the correlation between the post-ASO anatomy and the presence of altered flow features, and may be useful to improve surgical planning as well as the long-term care of TGA patients.