Surgical planning for living donor liver transplant using 4D flow MRI, computational fluid dynamics and in vitro experiments

• Published in: Computer methods in biomechanics and biomedical engineering. Vol. 6; no. 5; pp. 545 - 555
• Main Authors: Rutkowski, David R., Reeder, Scott B., Fernandez, Luis A., Roldán-Alzate, Alejandro
• Format: Journal Article
• Language: English
• Published: England Taylor & Francis 03.09.2018
• Subjects: 4D flow MRI; computational fluid dynamics; living donor liver transplantation; Portal hemodynamics; virtual surgery; Portal hemodynamics; 4D Flow MRI; Computational Fluid Dynamics; Living Donor Liver Transplantation; Virtual Surgery
• ISSN: 2168-1163; 2168-1171
• DOI: 10.1080/21681163.2017.1278619

This study used magnetic resonance imaging (MRI), computational fluid dynamics (CFD) modelling and in vitro experiments to predict patient-specific alterations in hepatic hemodynamics in response to partial hepatectomy in living liver donors. 4D Flow MRI was performed on three donors before and after hepatectomy and models of the portal venous system were created. Virtual surgery was performed to simulate (1) surgical resection and (2) post-surgery vessel dilation. CFD simulations were conducted using in vivo flow data for boundary conditions. CFD results showed good agreement with in vivo data, and in vitro experimental values agreed well with imaging and simulation results. The post-surgery models predicted an increase in all measured hemodynamic parameters, and the dilated virtual surgery model predicted post-surgery conditions better than the model that only simulated resection. The methods used in this study have potential significant value for the surgical planning process for the liver and other vascular territories.