| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 8671035 | The Journal of Thoracic and Cardiovascular Surgery | 2018 | 36 Pages |
Abstract
This simulator responds quickly and predicts patient-specific hemodynamics with good clinical accuracy. By predicting postoperative and postintervention hemodynamics in all 3 stages of single-ventricle physiology, the simulator could assist in clinical decision-making, training, and consultation. Continuing model refinement and validation will further its application to the bedside.
Keywords
mPAPSao2SVRpulmonary to systemic flow ratiosingle-ventricle physiologySVRIVO2Single ventricle physiologyLPMPVRIRV-PASvO2MBTSTcpCBSAright ventricle to pulmonary arterySystemic blood flowCFDComputational fluid dynamicsbody surface areaClinical decision support systemmodified Blalock-Taussig shuntSAPPVRHeart ratemean arterial pressuremean pulmonary artery pressureSVPComputer modeling and simulationMetabolic equivalentSystemic vascular resistancePulmonary vascular resistanceMETmaptotal cavopulmonary connectionFontan circulation
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Authors
Timothy PhD, Anthony M. MD, Francesco PhD, Ethan PhD, Adam MD, Richard S. PhD, Tain-Yen MD, MSc,