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Articles

Computational analysis of pediatric ventricular assist device implantation to decrease cerebral particulate embolizationFootnote

, , , , , , , & show all
Pages 789-799 | Received 17 Nov 2014, Accepted 11 Jun 2015, Published online: 27 Jul 2015
 

Abstract

Stroke is the most devastating complication after ventricular assist device (VAD) implantation with a 19% incidence and 65% mortality in the pediatric population. Current pediatric VAD technology and anticoagulation strategies alone are suboptimal. VAD implantation assisted by computational methods (CFD) may contribute reducing the risk of cerebral embolization. Representative three-dimensional aortic arch models of an infant and a child were generated. An 8 mm VAD outflow-graft (VAD-OG) anastomosed to the aorta was rendered and CFD was applied to study blood flow patterns. Particle tracks, originating in the VAD, were computed with a Lagrangian phase model and the percentage of particles entering the cerebral vessels was calculated. Eight implantation configurations (infant = 5 and child = 3) and 5 particle sizes (0.5, 1, 2, 3, and 4 mm) were considered. For the infant model, percentage of particles entering the cerebral vessels ranged from 15% for a VAD-OG anastomosed at 90° to the aorta, to 31% for 30° VAD-OG anastomosis (overall percentages: X2 = 10,852, p < 0.0001). For the child model, cerebral embolization ranged from 9% for the 30° VAD-OG anastomosis to 15% for the 60° anastomosis (overall percentages: χ2 = 10,323, p < 0.0001). Using detailed CFD calculations, we demonstrate that the risk of stroke depends significantly on the VAD implantation geometry. In turn, the risk probably depends on patient-specific anatomy. CFD can be used to optimize VAD implantation geometry to minimize stroke risk.

Acknowledgements

Ms. Nguyen is currently a medical student at Morsani College of Medicine, University of South Florida.

Conflict of interest disclosure statement

No potential conflict of interest was reported by the author(s).

Notes

† Presented in part at the 3rd International Conference on Engineering Frontiers in Pediatric and Congenital Heart Disease. Stanford, CA, May 2012.

1. First two authors contributed equally to this manuscript.

Additional information

Funding

Study supported by The Orlando Health Foundation.

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