Patents by Inventor Murray Sheldon

Murray Sheldon has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20220000622
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Application
    Filed: June 17, 2021
    Publication date: January 6, 2022
    Applicant: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Patent number: 11051941
    Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue in a minimally invasive manner, often for treatment of congestive heart failure. In one embodiment, an anchor of an implant system may, when the implant system is fully deployed, reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface of the heart. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a delivery catheter. Delivering the anchor over the guidewire may provide improved control in the delivery and placement of the anchor within the right ventricle.
    Type: Grant
    Filed: November 2, 2015
    Date of Patent: July 6, 2021
    Assignee: BioVentrix, Inc.
    Inventors: Lon Annest, Murray Sheldon, Kevin Van Bladel, Ernie Heflin, William Butler, Andrew Wechsler, John Bower, Rovil Arcia
  • Patent number: 11051942
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Grant
    Filed: January 8, 2019
    Date of Patent: July 6, 2021
    Assignee: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Publication number: 20190274833
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Application
    Filed: January 8, 2019
    Publication date: September 12, 2019
    Applicant: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Patent number: 10179049
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Grant
    Filed: April 24, 2017
    Date of Patent: January 15, 2019
    Assignee: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Publication number: 20170224490
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Application
    Filed: April 24, 2017
    Publication date: August 10, 2017
    Applicant: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Patent number: 9662212
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Grant
    Filed: April 15, 2016
    Date of Patent: May 30, 2017
    Assignee: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Publication number: 20160338835
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Application
    Filed: April 15, 2016
    Publication date: November 24, 2016
    Applicant: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Patent number: 9320513
    Abstract: Embodiments described include devices, systems, and methods for reducing the distance between two locations in tissue. An anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Grant
    Filed: March 13, 2015
    Date of Patent: April 26, 2016
    Assignee: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Publication number: 20160095600
    Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue in a minimally invasive manner, often for treatment of congestive heart failure. In one embodiment, an anchor of an implant system may, when the implant system is fully deployed, reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface of the heart. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a delivery catheter. Delivering the anchor over the guidewire may provide improved control in the delivery and placement of the anchor within the right ventricle.
    Type: Application
    Filed: November 2, 2015
    Publication date: April 7, 2016
    Inventors: Lon Annest, Murray Sheldon, Kevin Van Bladel, Ernie Heflin, William Butler, Andrew Wechsler, John Bower, Rovil Arcia
  • Patent number: 9173712
    Abstract: Medical devices, systems, and methods reduce the distance between two locations in tissue in a minimally invasive manner, often for treatment of congestive heart failure. In one embodiment, an anchor of an implant system may, when the implant system is fully deployed, reside within the right ventricle in engagement with the ventricular septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along an epicardial surface of the heart. Deployment of the anchor within the right ventricle may be performed by inserting a guidewire through the septal wall into the right ventricle. The anchor may be inserted into the right ventricle over the guidewire and through a lumen of a delivery catheter. Delivering the anchor over the guidewire may provide improved control in the delivery and placement of the anchor within the right ventricle.
    Type: Grant
    Filed: September 30, 2012
    Date of Patent: November 3, 2015
    Assignee: BioVentrix, Inc.
    Inventors: Lon Annest, Murray Sheldon, Kevin Van Bladel, Ernie Heflin, William Butler, Andrew Wechsler, John Bower, Rovil Arcia
  • Publication number: 20150282802
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Application
    Filed: March 13, 2015
    Publication date: October 8, 2015
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower
  • Patent number: 8979750
    Abstract: Embodiments described herein include devices, systems, and methods for reducing the distance between two locations in tissue. In one embodiment, an anchor may reside within the right ventricle in engagement with the septum. A tension member may extend from that anchor through the septum and an exterior wall of the left ventricle to a second anchor disposed along a surface of the heart. Perforating the exterior wall and the septum from an epicardial approach can provide control over the reshaping of the ventricular chamber. Guiding deployment of the implant from along the epicardial access path and another access path into and through the right ventricle provides control over the movement of the anchor within the ventricle. The joined epicardial pathway and right atrial pathway allows the tension member to be advanced into the heart through the right atrium and pulled into engagement along the epicardial access path.
    Type: Grant
    Filed: September 30, 2012
    Date of Patent: March 17, 2015
    Assignee: BioVentrix, Inc.
    Inventors: Kevin Van Bladel, Lon Annest, Murray Sheldon, Ernie Heflin, Andrew Wechsler, John Stiggelbout, Rovil Arcia, John Bower