Abstract: A composite stent-graft tubular prosthesis includes a non-continuous tubular body formed of polytetrafluoroethylene components, providing axial and circumferential compliance to said prosthesis and a circumferentially distensible stent.
Abstract: An implantable tubular textile prosthesis particularly useful in branched end-to-side anastomoses is provided. The prosthesis includes a first portion including an elongate tubular main wall which defines a fluid passageway therethrough, and a second portion including a tubular branch wall which extends laterally from the tubular main wall and which defines a fluid passageway therethrough. The tubular branch wall includes an elongate tubular extent and a contiguous flared tubular extent. The tubular branch wall is secured to the tubular main wall at the flared tubular extent to establish fluid communication between the passageways of the tubular main wall and the tubular branch wall. The flared tubular extent includes a gradual increase in diameter with respect to the tubular branch extent to provide a seamless and substantially fluid-tight transition between the tubular main wall and the tubular branch wall along the flared tubular extent.
Type:
Application
Filed:
January 11, 2001
Publication date:
August 9, 2001
Inventors:
Peter J. Schmitt, Klaus Heck, James Rudnick
Abstract: A tubular prosthesis including a tubular wall portion of loosely interlocked pattern, e.g. of knitted loops, constructed to function within a body lumen. The loops are preferably formed of co-knitted strand materials. A first strand material is a metal strand that structurally defines the tubular shape of the prosthesis and maintains the shape when positioned in the lumen. A second strand material is a predetermined substance selected to provide desired characteristics to the wall of the prosthesis.
Abstract: A method of forming a textile having an undulating wire member therein. The method includes forming a wire which exhibits shape memory behavior into an undulating wire member, training the wire to remember its shape, causing the undulating wire member to straighten by undergoing a shape-memory transformation, securing the straightened wire member in a conventional textile and then causing the straightened wire to undergo a shape memory transformation back to the remembered undulating shape.
Abstract: A variety of new ways can be used for associating antimicrobial elemental metal with a medical article. The associated antimicrobial metal reduces the risk of infection associated with the medical use of the medical article. New medical articles are produced by some of these new approaches. Some of the methods involve ways of adjusting the dissociation rate of associated elemental metal such that desired degrees of antimicrobial activity can be achieved over selected periods of time.
Type:
Grant
Filed:
December 31, 1998
Date of Patent:
February 20, 2001
Assignee:
St. Jude Medical, Inc.
Inventors:
Matthew F. Ogle, William R. Holmberg, Richard F. Schroeder, Donald S. Guzik, M. William Mirsch, II, Darrin J. Bergman, Hallie A. Finucane, Katherine S. Tweden
Abstract: The present invention provides controlled expansion endoluminal prostheses and methods for their deployment and expansion. The present stent-grafts generally comprise a radially expansible tubular frame and a plastically expansible liner on the frame. Either the frame or the liner includes a reinforcing element which limits expansion of the stent-graft at a predetermined expanded size. In some embodiments, the reinforcing element restrains the frame, for example, by limiting the circumferential diagonals of perforations on a perforate frame structure. Generally, however, the reinforcing element is included in the liner as circumferentially oriented yarn. A particularly advantageous liner includes composite circumferential yarns having inexpansible fibers wrapped around an expansible fiber, such as a partially oriented yarn, PTFE, or the like.
Type:
Grant
Filed:
February 25, 1998
Date of Patent:
January 23, 2001
Assignee:
Medtronic, Inc.
Inventors:
Jay A. Lenker, Brian J. Cox, Michael A. Evans, Steven Weinberg