OBJECTIVES: The objective of this work is to evaluate the hemodynamic performance of a new Y-graft modification of the extracardiac conduit Fontan operation. The performance of the Y-graft design is compared to two designs used in current practice: a t-junction connection of the venae cavae and an offset between the inferior and superior venae cavae. METHODS: The proposed design replaces the current tube grafts used to connect the inferior vena cava to the pulmonary arteries with a Y-shaped graft. Y-graft hemodynamics were evaluated at rest and during exercise with a patient-specific model from magnetic resonance imaging data together with computational fluid dynamics. Four clinically motivated performance measures were examined: Fontan pressures, energy efficiency, inferior vena cava flow distribution, and wall shear stress. Two variants of the Y-graft were evaluated: an "off-the-shelf" graft with 9-mm branches and an "area-preserving" graft with 12-mm branches. RESULTS: Energy efficiency of the 12-mm Y-graft was higher than all other models at rest and during exercise, and the reduction in efficiency from rest to exercise was improved by 38%. Both Y-graft designs reduced superior vena cava pressures during exercise by as much as 5 mm Hg. The Y-graft more equally distributed the inferior vena cava flow to both lungs, whereas the offset design skewed 70% of the flow to the left lung. The 12-mm graft resulted in slightly larger regions of low wall shear stress than other models; however, minimum shear stress values were similar. CONCLUSIONS: The area-preserving 12-mm Y-graft is a promising modification of the Fontan procedure that should be clinically evaluated. Further work is needed to correlate our performance metrics with clinical outcomes, including exercise intolerance, incidence of protein-losing enteropathy, and thrombus formation.
OBJECTIVES: The objective of this work is to evaluate the hemodynamic performance of a new Y-graft modification of the extracardiac conduit Fontan operation. The performance of the Y-graft design is compared to two designs used in current practice: a t-junction connection of the venae cavae and an offset between the inferior and superior venae cavae. METHODS: The proposed design replaces the current tube grafts used to connect the inferior vena cava to the pulmonary arteries with a Y-shaped graft. Y-graft hemodynamics were evaluated at rest and during exercise with a patient-specific model from magnetic resonance imaging data together with computational fluid dynamics. Four clinically motivated performance measures were examined: Fontan pressures, energy efficiency, inferior vena cava flow distribution, and wall shear stress. Two variants of the Y-graft were evaluated: an "off-the-shelf" graft with 9-mm branches and an "area-preserving" graft with 12-mm branches. RESULTS: Energy efficiency of the 12-mm Y-graft was higher than all other models at rest and during exercise, and the reduction in efficiency from rest to exercise was improved by 38%. Both Y-graft designs reduced superior vena cava pressures during exercise by as much as 5 mm Hg. The Y-graft more equally distributed the inferior vena cava flow to both lungs, whereas the offset design skewed 70% of the flow to the left lung. The 12-mm graft resulted in slightly larger regions of low wall shear stress than other models; however, minimum shear stress values were similar. CONCLUSIONS: The area-preserving 12-mm Y-graft is a promising modification of the Fontan procedure that should be clinically evaluated. Further work is needed to correlate our performance metrics with clinical outcomes, including exercise intolerance, incidence of protein-losing enteropathy, and thrombus formation.
Authors: Christopher M Haggerty; Diane A de Zélicourt; Maria Restrepo; Jarek Rossignac; Thomas L Spray; Kirk R Kanter; Mark A Fogel; Ajit P Yoganathan Journal: Ann Biomed Eng Date: 2012-07-10 Impact factor: 3.934
Authors: Andrew L Cheng; Niema M Pahlevan; Derek G Rinderknecht; John C Wood; Morteza Gharib Journal: Eur J Mech B Fluids Date: 2017-12-27 Impact factor: 2.183
Authors: Kelly Jarvis; Susanne Schnell; Alex J Barker; Julio Garcia; Ramona Lorenz; Michael Rose; Varun Chowdhary; James Carr; Joshua D Robinson; Cynthia K Rigsby; Michael Markl Journal: Pediatr Radiol Date: 2016-06-27
Authors: Sarah T Plummer; Christoph P Hornik; Hamilton Baker; Gregory A Fleming; Susan Foerster; M Eric Ferguson; Andrew C Glatz; Russel Hirsch; Jeffrey P Jacobs; Kyong-Jin Lee; Alan B Lewis; Jennifer S Li; Mary Martin; Diego Porras; Wolfgang A K Radtke; John F Rhodes; Julie A Vincent; Jeffrey D Zampi; Kevin D Hill Journal: J Thorac Cardiovasc Surg Date: 2016-04-14 Impact factor: 5.209