• Comparison of Strength, Consistency and Speed of Manually-Tied Knots vs. Automated Titanium Fasteners in an Ex-vivo Minimally Invasive Mitral Ring Model Using a New Micro- Transducer Pressure Analysis System.

Candice Y. Lee, University of Rochester Medical Center, 2013.

 

  • Clinical Outcomes of Patients More Than One Year after Minimally Invasive Mitral Valve Repair. and Replacement Surgery with Sutures Secured using Automated Titanium Fasteners.

Roberto Rodriguez, Lankenau Medical Center, 2013.

 

  • Significant Reduction in Operative Times Using Cor-Knot™ In Robot-Assisted Mitral Valve Repair.
  1. Wiley Nifong, East Carolina Heart Institute,2013.

 

  • Titanium Fasteners in Open Aortic Valve Replacement Surgery: Effective and Significant Savings Candice Y. Lee, MD, University of Rochester Medical Center,2014.

 

  • A new pressure mapping system towards optimizing cardiac prosthetic attachment.

A.J. Martellaro, University of Rochester Medical Center,2014.

 

  • New Knot Tying Technique for Minimally Invasive approach to Mitral Valve Repair.
  1. Rodriguez, Lankenau medical center, 2014.

 

 

  • Facilitating Technology for Knot Tying During Minimally Invasive Mitral Valve Repair.

Scott Goldman, Lankenau Medical Center, 2014.

 

  • Facilitating implantation of Neochordae for Complex Mitral Valve Repair with the Minimally Invasive Right Thoracotomy Approach: 2 Years Follow-Up.

Steven Jin, Riverside Community Hospital, 2014.

 

  • The Cor-Knot Device May Serve as an Ideal Radiopaque Marker of the Annular Plane for Future Valve-in-Valve Implantation.

Martin Czerny, Department of Cardiovascular Surgery, University Hospital Zurich, 2014.

 

  • Robotically assisted minimally invasive mitral valve surgery.

Kaushik Mandal, Division of Cardiac Surgery, Johns Hopkins University School of Medicine, 2014.