Publications

  1. Gupta A, Kung E. "A Protocol for Automated a-posteriori Adaptive Meshing with SimVascular: A Test Case" BMC Research Notes. DOI: 10.1186/s13104-020-05057-7 (2020)  Download
  2. Gupta A, Gillett C, Gerard P, Cheung M, Mynard JP, Kung E. "Predictive Models for Pulmonary Artery Size In Fontan Patients" Cardiovascular Translational Research. DOI: 10.1007/s12265-020-09993-4 (2020)  Download
  3. Farahmand M, Kavarana MN, Trusty PM, Kung EO. "Target Flow-Pressure Operating Range for Designing a Failing Fontan Cavopulmonary Support Device" IEEE Transactions on Biomedical Engineering. DOI: 10.1109/TBME.2020.2974098 (2020) Featured Article  Download
  4. Mirzaei E, Farahmand M, Kung E. "An algorithm for coupling multibranch in vitro experiment to numerical physiology simulation for a hybrid cardiovascular model" Int J Numer Meth Biomed Engng. e3289 (2019)  Download
  5. Kaufmann J, Kung E. “Factors Affecting Cardiovascular Physiology in Cardiothoracic Surgery: Implications for Lumped-parameter Modeling” Front. Surg. 6:62 (2019)  Download
  6. Kung E, Corsini C, Marsden A, Vignon-Clementel I, Pennati G, Figliola R, Hsia TY, MOCHA. “Multiscale Modeling of Superior Cavopulmonary Circulation: Hemi-Fontan And Bidirectional Glenn Are Equivalent” Semin Thorac Cardiovasc Surg. DOI: 10.1053/j.semtcvs.2019.09.007 (2019)  Download  Audio Slides
  7. Farahmand M, Kavarana M, Kung E. “Risks and Benefits of Using a Commercially Available Ventricular Assist Device for Failing Fontan Cavopulmonary Support: A Modeling Investigation” IEEE Transactions Biomed Eng. DOI:10.1109/TBME.2019.2911470 (2019)  Download
  8. Kung E, Farahmand M, Gupta A. "A Hybrid Experimental-Computational Modeling Framework For Cardiovascular Device Testing." J Biomech Eng. 141(5):051012 (2019)  Download
  9. Conover T, Hlavacek A, Migliavacca F, Kung E, Dorfman A, Figliola R, Hsia TY, MOCHA Investigators. “An interactive simulation tool for patient-specific clinical decision support in single-ventricle physiology.” J Thoracic Cardiovascular Surgery. 155(2):712-721 (2018)  Download
  10. Schmidt T, Rosenthal D, Reinhartz O, Riemer K, He F, Hsia TY, Marsden A, Kung E, MOCHA Investigators. “Superior performance of continuous over pulsatile flow ventricular assist devices in the single ventricle circulation: A computational study.” Journal of Biomechanics. 52:48-54 (2017)   Download   Audio Slides
  11. Mechoor R, Schmidt T, Kung E. “A Real-Time Programmable Pulsatile Flow Pump For In-Vitro Cardiovascular Experimentation.” Journal of Biomechanical Engineering. 138(11):111002 (2016)  Download
  12. Van De Bruaene A, Claessen G, Gerche A, Kung E, Marsden A, Meester P, Devroe S, Bogaert J, Claus P, Heidbuchel H, Budts W, Gewillig M. “Effect Of Respiration On Cardiac Filling At Rest And During Exercise In Fontan Patients: A Clinical And Computational Modeling Study.” IJC Heart & Vasculature. (2015)  Download
  13. Kung E, Marsden A, Baker C, Giardini A, Figliola R, Hsia TY, “Does TCPC Power Loss Really Affect Exercise Capacity?” Heart. DOI:10.1136/heartjnl-2014-307379 (2015)  Download
  14. Schiavazzi D, Kung EO, Marsden AL, Baker C, Pennati G, Hsia TY, Dorfman A, ”Hemodynamic Effects of Left Pulmonary Artery Stenosis Following Superior Cavopulmonary Connection: A Patient-Specific Multiscale Modeling Study.” J Thoracic and Cardiovascular Surgery. (2014)  Download
  15. Corsini C, Baker C, Baretta A, Biglino G, Hlavacek AM, Hsia TY, Kung E, Marsden AL, Migliavacca F, Vignon-Clementel I, Pennati G, “Integration of Clinical Data Collected at Different Times For Virtual Surgery in Single Ventricle Patients: A Case Study.” Annals of Biomedical Engineering. Springer Verlag (Germany), pp.11 (2014)
  16. Kung E, Perry JC, Davis C, Migliavacca F, Pennati G, Giardini A, Hsia TY, Marsden AM, “Computational Modeling of Pathophysiologic Responses to Exercise in Fontan Patients.” Annals of Biomedical Engineering. DOI:10.1007/s10439-014-1131-4 (2014)  Download
  17. Kung E, Kahn AM, Burns JC, Marsden A, “In-vitro Validation of Patient-Specific Hemodynamic Simulations in Coronary Aneurysms Caused by Kawasaki Disease.” Cardio Eng and Tech. 5(2):189-201 (2014) Download
  18. Sengupta D, Kahn AM, Kung E, Moghadam ME, Shirinsky O, Lyskina GA, Burns JC, Marsden AL, “Thrombotic risk stratification using computational modeling in patients with coronary artery aneurysms following Kawasaki disease.” Biomechanics and Modeling in Mechanobiology. DOI 10.1007/s10237-014-0570-z (2014) Download
  19. Kung E, Pennati G, Migliavacca F, Hsia TY, Marsden A, Giardini A, MOCHA Investigators, “A Simulation Protocol For Exercise Physiology In Fontan Patients Using A Closed-Loop Lumped-Parameter Model.” Journal of Biomechanical Engineering. 136(8):081007 (2014) Download
  20. Lee J, Moghadam ME, Kung E, Cao H, Beebe T, Miller Y, Roman BL, Lien C-L, Chi NC, Marsden AL, “Moving Domain Computational Fluid Dynamics to Interface with an Embryonic Model of Cardiac Morphogenesis.” PloS one. 8(8):e72924 (2013) Download
  21. Kung E, Baretta A, Baker C, Arbia G, Biglino G, Corsini C, Schievano S, Vignon-Clementel IE, Dubini G, Pennati G, Taylor A, Dorfman A, Hlavacek AM, Marsden AL, Hsia T-Y, Migliavacca F, “Predictive modeling of the virtual Hemi-Fontan operation for second stage single ventricle palliation: Two patient-specific cases.” Journal of Biomechanics. 46(2):423-429 (2013) Download
  22. Corsini C, Baker C, Kung E, Schievano S, Arbia G, Baretta A, Biglino G, Migliavacca F, Dubini G, Pennati G, Marsden A, Vignon-Clementel I, Taylor A, Hsia TY, Dorfman A, MOCHA Investigators, “An integrated approach to patient-specific predictive modeling for single ventricle heart palliation.” Comput Methods Biomech Biomed Engin. Available online, DOI:10.1080/10255842.2012.758254 (Jan 23, 2013) Download
  23. Kung E, Les A, Figueroa CA, Medina F, Arcaute K, Wicker R, McConnell M, Taylor C, “In Vitro Validation of Finite Element Analysis of Blood Flow in Deformable Models.” Annals of Biomedical Engineering. 39(7):1947-1960 (2011) Download
  24. Kung E, Les AS, Medina F, Wicker RB, McConnell MV, Taylor CA, “In vitro validation of finite-element model of AAA hemodynamics incorporating realistic outlet boundary conditions.” J Biomech Eng. 133(4):041003 (2011). Download
  25. Kung E, Taylor C, “Development of a Physical Windkessel Module to Re-Create In Vivo Vascular Flow Impedance for In Vitro Experiments.” Cardiovascular Engineering and Technology. 2(1):2-14 (2011) Download

Open Access Articles and Pre-prints on Clemson TigerPrints Server


Book Chapters

  • Computational Bioengineering, CRC Press Taylor & Francis Group, Editor: Guigen Zhang
    Marsden A, Kung E, “Multi-scale Modeling of Cardiovascular Flows”

  • Advances in Experimental Surgery. Volume 1, Nova Science Publishers, Editor: Huifang Chen
    Kung E, “Cardiovascular Biomechanical Models”