Patents by Inventor David Hemsley

David Hemsley 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: 20090134294
    Abstract: A climbing aid in the form of a camming device comprising two support arms rotatably mounted about an axis, each arm having at its free end at least two pivotally mounted cams, and locking means for preventing rotation of the arms on reaching a predetermined angle with respect to each other.
    Type: Application
    Filed: April 28, 2006
    Publication date: May 28, 2009
    Inventor: David Hemsley
  • Patent number: 6497713
    Abstract: The present invention provides a tissue cutting device and a method for accurately cutting tissue into tissue leaflets for autologous tissue heart valves in a minimal amount of time. The device includes a flexible backing pad located between a rotatable rotary table and a puck which houses several sharpened blades. The tissue to be cut is located on the flexible backing pad adjacent to the blades. The rotary table includes a hemispherically shaped raised cutting bar on the upper surface. When the rotary table is rotated, the cutting bar pushes the tissue against the blades in the puck, cutting the tissue into the desired shape.
    Type: Grant
    Filed: April 28, 2000
    Date of Patent: December 24, 2002
    Assignee: Autogenics
    Inventors: David Tompkins, Ernest Lane, David Hemsley
  • Publication number: 20020026238
    Abstract: An apparatus and a method for constructing a heart valve prepared from autologous tissue is disclosed. Three tissue leaflets are held in place with tissue anchors on a tissue mounting frame having an annular base and a plurality of commissure posts extending from the base. An elastomeric sheath rests gently on the tissue leaflets to prevent the leaflets from coming off of the anchor hooks and encloses the leaflets to form valve cusps. The leaflets touch each other on a coaptation line with an angle of approximately 65° C. relative to the commissure post. The heart valves can be constructed intraoperatively in a short time, typically ten minutes. The low coaptation angle and the fact that the leaflets are held in place without being clamped between two unyielding members minimize stress on the tissue.
    Type: Application
    Filed: October 16, 2001
    Publication date: February 28, 2002
    Inventors: Ernest Lane, David Tompkins, David Hemsley
  • Publication number: 20020005073
    Abstract: A method and an apparatus for testing the strength of autologous tissue for use in tissue leaflets for constructing artificial heart valves. A strip of tissue is cut adjacent to the edge of the tissue leaflet which is subject to the greatest stress when the tissue leaflet is mounted in the artificial heart valve. The strip of tissue is subjected to a known load produced by a spring to give a go/no go test of tissue strength. The spring is mounted in a generally X-shaped device made up of a generally linear piece having a handle at one end and two generally V-shaped pieces. The centers of all three pieces are joined to one another by a pivot. A spring is attached to the ends of the two generally V-shaped pieces which are closest to each other. The strip of tissue is mounted on the end of the generally linear shaped piece which does not have a handle and the end of the generally V-shaped pieces which is closest to the end of the generally linear piece which is attached to the strip of tissue.
    Type: Application
    Filed: April 19, 2001
    Publication date: January 17, 2002
    Inventors: David Tompkins, David Hemsley
  • Patent number: 6334873
    Abstract: An apparatus and a method for constructing a heart valve prepared from autologous tissue. Three tissue leaflets are held in place with tissue anchors on a tissue mounting frame having an annular base and a plurality of commissure posts extending from the base. An elastomeric sheath rests gently on the tissue leaflets to prevent the leaflets from coming off of the anchor hooks and encloses the leaflets to form valve cusps. The leaflets touch each other on a coaptation line with an angle of approximately 65° relative to the commissure post. The heart valves can be constructed intraoperatively in a short time, typically ten minutes. The low coaptation angle and the fact that the leaflets are held in place without being clamped between two unyielding members minimize stress on the tissue.
    Type: Grant
    Filed: September 28, 1998
    Date of Patent: January 1, 2002
    Assignee: Autogenics
    Inventors: Ernest Lane, David Tompkins, David Hemsley