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Congenital: Fontan

2 Results

Congenital: Fontan
Open Archive
Role of surgeon intuition and computer-aided design in Fontan optimization: A computational fluid dynamics simulation study
The Journal of Thoracic and Cardiovascular Surgery
Vol. 160Issue 1p203–212.e2Published online: January 8, 2020
- Yue-Hin Loke
- Byeol Kim
- Paige Mass
- Justin D. Opfermann
- Narutoshi Hibino
- Axel Krieger
- and others
Cited in Scopus: 14
- Video
Customized Fontan designs, generated by computer-aided design (CAD) and optimized by computational fluid dynamics simulations, can lead to novel, patient-specific Fontan conduits unconstrained by off-the-shelf grafts. The relative contributions of both surgical expertise and CAD to Fontan optimization have not been addressed. In this study, we assessed hemodynamic performance of Fontans designed by both surgeon's unconstrained modeling (SUM) and by CAD.
Congenital: Fontan
Open Archive
Y-graft modification to the Fontan procedure: Increasingly balanced flow over time
The Journal of Thoracic and Cardiovascular Surgery
Vol. 159Issue 2p652–661Published online: July 10, 2019
- Phillip M. Trusty
- Zhenglun Wei
- Megan Sales
- Kirk R. Kanter
- Mark A. Fogel
- Ajit P. Yoganathan
- and others
Cited in Scopus: 14
- Video
The use of Y-grafts for Fontan completion is hypothesized to offer more balanced hepatic flow distribution (HFD) and decreased energy losses. The purpose of this study was to evaluate the hemodynamic performance of Y-grafts over time using serial cardiac magnetic resonance data and to compare their performance with extracardiac Fontan connections.