1. Mechanoregulation of heart valve morphogenesis
    Invited Keynote. 2018 World Congress of Biomechanics. Dublin Ireland. July 11, 2018.

  2. Stem cells in heart valve pathogenesis and regeneration.
    7th Cornell Stem Cell Symposium. May 24, 2018.

  3. Is there an appropriate in vitro model of aortic valve calcification?
    Heart Valve Society 2018 Annual Meeting. Invited Keynote. New York, NY. April 12, 2018.

  4. Cardiovascular developmental bioengineering.
    Medtronic Inc. Irvine CA. March 20, 2018.

  5. Notch-NFkB interactions in aortic valve homeostasis and disease.
    Cornell Center for Vertebrate Genomics. Cornell University, Ithaca NY. February 13, 2018.

  6. Aortic valve homeostasis disease, and regeneration.
    Clemson University. Hunter Endowed Lecture. December 7, 2017. Clemson SC.

  7. Notch Signaling in Aortic Valve Morphogenesis and Homeostasis.
    American Heart Association 2017 Scientific Sessions. November 13, 2017. Los Angeles, CA.

  8. Developmental Reactivation of Cells in Heart Valve Disease  Cellular Control of (Re)generation.
    University of Rochester. November 8, 2017. Rochester NY.

  9. The Natural Engineering of Heart Valves: From Stem Cells to Biomaterials.
    Keynote Presentation. Qatar University, Tissue Engineering and Stem Cell Technologies Workshop. Doha, Qatar. October 25, 2017.

  10. The Mechanobiology of mitral valve development and maturation.
    University of California, Los Angeles. April 24, 2017. Los Angeles, CA.

  11. 3D Printing for Clinical Cardiovascular Applications.
    SelectBIO Conference. March 17, 2017. Boston MA.

  12. Endothelial-Interstitial Cell Communication.
    Invited Keynote. Heart Valve Society 2017 Annual Meeting. March 3, 2017. Monaco.

  13. 3D culture systems for elucidation of mechanobiological mechanisms of valve calcification.
    Invited Keynote. Heart Valve Society 2017 Annual Meeting. March 3, 2017. Monaco.

  14. The perfect semilunar valve: An Engineer’s Perspective.
    Invited Keynote. Heart Valve Society 2017 Annual Meeting. March 2, 2017. Monaco.

  15. 3D Printing and Biofabrication of Cardiac Valves-Current State and Future Perspectives.
    American Heart Association, 2016 Scientific Sessions. November 14, 2016. New Orleans, LA.

  16. The Mechanobiological Control of Mitral Valve Development, Homeostasis, and Disease Pathogenesis.
    International Cardiology Veterinary Symposium. October 21-23, 2106. Dubrovnik Croatia.

  17. The Mechanobiology of Mitral Valve Morphogenesis.
    Cincinnati Children’s Hospital, Bridging the Outcome from TERM. August 29-30, 2016.

  18. Hemodynamic regulation of outflow tract and great vessel formation.
    6th International Conference on Engineering Frontiers in Pediatric and Congenital Heart Diseases. Orlando FL. June 10, 2016.

  19. 3D Biofabrication of Complex Living Cardiovascular Tissues.
    Oregon Health Science Center. May 13, 2016.

  20. The Mechanobiology of Heart Valve Development and Maturation.
    Stanford University. May 12, 2016

  21. Endothelial-mesenchymal transformation in aortic valve maturation and postnatal valve remodeling.
    Heart Valve Society 2016 Annual Meeting. New York City, NY. March 18, 2016.

  22. The Mechanobiology of Aortic Valve Disease and Regeneration.
    University of California, Irvine. Irvine, CA. February 27, 2016.

  23. Biofabrication of complex living cardiovascular tissues.
    Seattle Children’s Hospital, Seattle, WA, November 17, 2015.

  24. Matrix control of aortic valve interstitial cell phenotype.
    American Heart Association, Scientific Sessions. Orlando, FL, November 10, 2015.

  25. Endothelial Mechanisms of Aortic Valve Biology and Disease.
    Heart Valve Society Inaugural Meeting. Monaco, May 7, 2015.

  26. Mechanical regulation of FilGAP coordinates Rac1 mediated remodeling of the fetal aortic valves.
    Center for Vertebrate Genomics, Cornell University. December 9, 2014.