Patents Assigned to Schneider (USA) Inc
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Patent number: 7211109Abstract: A prosthesis for transluminal implantation consists of a flexible tubular interbraided structure of metal or polymeric monofilaments, and polymeric multifilament yarns. The prosthesis can be elastically deformed to reduce its diameter through axial elongation. The monofilaments and multifilament yarns are arranged in axially spaced apart helices, concentric on a common central axis of the prosthesis. The monofilaments are selectively shaped before their interbraiding with the multifilament yarns, either by an age-hardening or other heat-setting stage, or a cold-working stage that controllably plastically deforms the strands. The shaped structural strands cooperate to impart to the prosthesis its nominal shape and resilience. The textile strands cooperate to provide a sheeting that occupies interstices between adjacent structural strands, to reduce permeability and thereby enhance the utility of the prosthesis as a vascular graft.Type: GrantFiled: February 10, 2004Date of Patent: May 1, 2007Assignee: Schneider (USA) Inc.Inventor: Paul J. Thompson
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Patent number: 7108716Abstract: The invention relates to a stent-graft with a bioabsorbable structure and a permanent graft for luminal support and ‘treatment of arterial fistulas, occlusive disease, and aneurysms. The bioabsorbable structure is formed from braided filaments of materials such as PLA, PLLA, PDLA, and PGA and the graft is formed from materials such as PET, ePTFE, PCU or PU.Type: GrantFiled: September 30, 2003Date of Patent: September 19, 2006Assignee: Schneider (USA) Inc.Inventors: Diane K. Burnside, Jonathan S. Stinson, Paul F. Chouinard
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Patent number: 7083641Abstract: A temporary and retrievable radiopaque marker and discrete radiopaque marker for use on an implantable endoprosthesis. The elongate marker has a proximal end, a distal end, and a thickness. At least a portion of the marker is radiopaque and the marker is removably-attached to the implantable endoprosthesis.Type: GrantFiled: November 13, 2001Date of Patent: August 1, 2006Assignee: Schneider (USA) Inc.Inventors: Jonathan S. Stinson, Claude O. Clerc
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Patent number: 7004962Abstract: A delivery device for delivering an implantable endoprosthesis with an occlusion region for occluding fluid flow to a desired location in a body lumen. The delivery device includes an outer sleeve and an inner tube terminating at a distal tip. The distal tip is made of one of a dissolvable, bioabsorbable, or deformable material. Upon deployment of the endoprosthesis at the desired location, the shape of the distal tip is altered to a different shape and withdrawn through the constricted region of the endoprosthesis.Type: GrantFiled: May 10, 2001Date of Patent: February 28, 2006Assignee: Schneider (USA), Inc.Inventor: Jonathan S. Stinson
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Patent number: 6860900Abstract: An implantable stent and stent-graft for treating a patient having a relatively healthy first aorta portion upstream from a renal artery branch, and a diseased aorta portion downstream from the renal artery branch. One embodiment of the device includes a fixation section, a renal artery branch section and a diseased aorta section, all of which can be tubular, radially compressible and self-expandable structures formed from a plurality of filaments which are helically wound in a braided configuration. When the device is implanted and in its expanded state, the fixation section engages the first aorta portion upstream from a renal artery branch to provide substantial anchoring support. The diseased aorta section engages the portion of the aorta downstream from the renal artery branch and extends across the diseased portion of the aorta for purposes of treatment.Type: GrantFiled: June 27, 2003Date of Patent: March 1, 2005Assignee: Schneider (USA) Inc.Inventors: Claude O. Clerc, Paul F. Chouinard, Leonard Pinchuk, Paul J. Thompson
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Publication number: 20040207127Abstract: A method of producing laminated inflatable, substantially inextensible expander members having composite properties enhancing their use on intravascular catheters, such as angioplasty catheters is described. Diverse polymeric compounds of differing properties are coextruded to create a multilayer parison. The parison is subsequently drawn and expanded in a blow molding operation to yield an expander member exhibiting enhanced properties including lubricity, burst-strength, limited radial expansion, bondability, and rupture characteristics.Type: ApplicationFiled: May 5, 2004Publication date: October 21, 2004Applicant: Schneider (USA) Inc., a corporationInventor: Robert N. Hamlin
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Publication number: 20040191443Abstract: A method of producing laminated inflatable, substantially inextensible expander members having composite properties enhancing their use on intravascular catheters, such as angioplasty catheters is described. Diverse polymeric compounds of differing properties are coextruded to create a multilayer parison. The parison is subsequently drawn and expanded in a blow molding operation to yield an expander member exhibiting enhanced properties including lubricity, burst-strength, limited radial expansion, bondability, and rupture characteristics.Type: ApplicationFiled: April 9, 2004Publication date: September 30, 2004Applicant: Schneider (USA) Inc., a corporationInventor: Robert N. Hamlin
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Publication number: 20040067301Abstract: The medical devices of the invention comprise a portion having a porous surface for release of at least one biologically active agent therefrom. The porous surface is made of a material such as a polymer having a plurality of voids. To load the porous surface with a biologically active agent or drug, an electrophoresis method is employed. In this method, a device having a porous surface is placed into a drug solution or suspension, along with an electrode. An electric current is applied to the device and electrode. Under such a current, the drug, which has a positive or negative charge, will be loaded into the pores or voids of the porous surface.Type: ApplicationFiled: October 3, 2003Publication date: April 8, 2004Applicant: Schneider (USA), Inc.Inventor: Ni Ding
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Publication number: 20040049265Abstract: A coating and method for a coating an implantable device or prostheses are disclosed. The coating includes an undercoat of polymeric material containing an amount of biologically active material, particularly heparin, dispersed therein. The coating further includes a topcoat which covers less than the entire surface of the undercoat and wherein the topcoat comprises a polymeric material substantially free of pores and porosigens. The polymeric material of the topcoat can be a biostable, biocompatible material which provides long term non-thrombogenicity to the device portion during and after release of the biologically active material.Type: ApplicationFiled: June 24, 2003Publication date: March 11, 2004Applicant: Schneider (USA) Inc.Inventors: Ni Ding, Michael N. Helmus
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Publication number: 20030009215Abstract: A body compatible stent is formed of multiple filaments arranged in at least two sets of oppositely directed helical windings interwoven with one another in a braided configuration. Each of the filaments is a composite including a central core and a case surrounding the core. In the more preferred version, the core is formed of a radiopaque and relatively ductile material, e.g. tantalum or platinum. The outer case is formed of a relatively resilient material, e.g. a cobalt/chromium based alloy. Favorable mechanical characteristics of the stent are determined by the case, while the core enables in vivo imaging of the stent. The composite filaments are formed by a drawn filled tubing process in which the core is inserted into a tubular case of a diameter substantially more than the intended final filament diameter. The composite filament is cold-worked in several steps to reduce its diameter, and annealed between successive cold working steps.Type: ApplicationFiled: June 19, 2002Publication date: January 9, 2003Applicant: Schneider (USA) Inc., a Minnesota CorporationInventor: David W. Mayer
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Patent number: 6503353Abstract: An intravascular catheter (10,110) having an elongated tubular body with a proximal portion, a distal portion and a lumen extending therebetween. The tubular body is formed with polymeric materials, preferably containing no radiopaque filler, and metallic reinforcing braiding (22,130) configured to provide the catheter (10,110) with radiopaque properties and/or kink resistance.Type: GrantFiled: November 16, 1999Date of Patent: January 7, 2003Assignee: Schneider (USA) Inc.Inventors: Alex A. Peterson, John B. Logan
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Patent number: 6464683Abstract: The present invention provides a length of trilayer, extruded, medical tubing comprising an outer layer, a core layer, and an intermediate tie layer. The outer layer comprises a polymer that is directly bondable, while the core layer comprises a lubricious polymer. The core layer thus defines a lumen that exhibits the desired characteristics, i.e., low friction for the advancement of a guidewire or catheter through the lumen without comprising the strength and stiffness that is desirable in tubing that is to be used in medical devices. Additionally, the tubing is easily coextruded and yet, is not subject to delamination, thus providing the added advantage of providing a reduction in the overall cost of manufacture.Type: GrantFiled: October 24, 2000Date of Patent: October 15, 2002Assignee: Schneider (USA) Inc.Inventors: Christine M. Samuelson, Sarah J. Krieger
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Patent number: 6458313Abstract: A method for stretch blow molding dilatation balloons for angioplasty catheters having a significantly reduced cone thickness without sacrifice in burst strength is achieved by utilizing a mold whose cavity includes arcuate walls defining the balloon's end cones and a predetermined minimal distance from the side edges of the mold to the points where the arcuate walls intersect with a smaller diameter balloon stem portion. Utilizing this mold and providing for three longitudinal stretching sequences, one prior to, one during and one following radial expansion of the heated plastic parison, results in an improved balloon exhibiting reduced cone stiffness.Type: GrantFiled: July 18, 2001Date of Patent: October 1, 2002Assignee: Schneider (USA) Inc.Inventors: R. Garryl Hudgins, Robert C. Farnan
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Publication number: 20020082552Abstract: The medical devices of the invention comprise an expandable portion which is covered with a sponge coating for release of at least one biologically active material. The sponge coating is made of a non-hydrogel polymer having a plurality of voids. The device can further include means for infusing or expelling the biologically active material or drug into the voids. The drug is delivered to the body lumen of a patient by expelling the drug and inflating or expanding the expandable portion of the catheter or device.Type: ApplicationFiled: February 7, 2002Publication date: June 27, 2002Applicant: Schneider (USA) Inc.Inventors: Ni Ding, W. Scott Andrus
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Patent number: 6361529Abstract: A dilation catheter having a first shaft section, a second shaft section attached to the first shaft section, and an inflatable balloon attached to the second shaft section. A fluid pathway is defined through the catheter for inflation of the balloon. A guide wire lumen is provided in the second shaft section that can extend between the distal end of the balloon and a point distal of the first shaft section. A stiffening member is provided within the second shaft section of the dilation catheter to provide additional stiffness to the second shaft section. In a preferred embodiment, the stiffening member is attached at the distal end of the first shaft section to occlude the hollow passage of the first shaft section. In this embodiment, the first shaft section farther includes a fluid port that is proximal of the stiffening member and that extends between the hollow passage of the first shaft section and the exterior of the first shaft section.Type: GrantFiled: May 23, 2000Date of Patent: March 26, 2002Assignee: Schneider (USA) Inc.Inventors: Rich L. Goodin, Suranjan Roychowdhury, Katherine Prindle
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Patent number: 6342068Abstract: A prothesis for transluminal implantation consists of a flexible tubular three-dimensionally braided structure of metal or polymeric monofilaments, and polymeric multifilament yarns. The prosthesis can be elastically deformed to reduce its diameter through axial elongation. The monofilaments and multifilament yarns are arranged in axially spaced apart helices, concentric on a common central axis of the prosthesis. The monofilaments are selectively shaped before their interbraiding with the multifilament yarns, either by an age-hardening or other heat-setting stage, or a cold-working stage that controllably plastically deforms the strands. The shaped structural strands cooperate to impart to the prosthesis its nominal shape and resilience. The textile strands cooperate to provide one or more layers of sheeting that reduce permeability and thereby enhance the utility of the prosthesis as a vascular graft.Type: GrantFiled: November 23, 1998Date of Patent: January 29, 2002Assignee: Schneider (USA) IncInventor: Paul J. Thompson
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Publication number: 20020004101Abstract: A coating and method for a coating an implantable device or prostheses are disclosed. The coating includes an undercoat of polymeric material containing an amount of biologically active material, particularly heparin, dispersed therein. The coating further includes a topcoat which covers less than the entire surface of the undercoat and wherein the topcoat comprises a polymeric material substantially free of pores and porosigens. The polymeric material of the topcoat can be a biostable, biocompatible material which provides long term non-thrombogenicity to the device portion during and after release of the biologically active material.Type: ApplicationFiled: August 30, 2001Publication date: January 10, 2002Applicant: Schneider (USA) Inc.Inventors: Ni Ding, Michael N. Helmus
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Publication number: 20010044629Abstract: A delivery device for delivering an implantable endoprosthesis with an occlusion region for occluding fluid flow to a desired location in a body lumen. The delivery device includes an outer sleeve and an inner tube terminating at a distal tip. The distal tip is made of one of a dissolvable, bioabsorbable, or deformable material. Upon deployment of the endoprosthesis at the desired location, the shape of the distal tip is altered to a different shape and withdrawn through the constricted region of the endoprosthesis.Type: ApplicationFiled: May 10, 2001Publication date: November 22, 2001Applicant: Schneider (USA), Inc.Inventor: Jonathan S. Stinson
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Patent number: 6299596Abstract: A method of bonding polymeric materials, in particular, polymeric materials comprising silicone, is provided along with medical devices comprising materials bonded together by said method. More specifically, the method of the present invention involves surface treating the surface of a polymeric material, preferably a polymeric material comprising silicone, such that the character of the surface of the material changes in a manner such that bondability of the material is enhanced. The surface of the surface treated polymeric material is then brought into contact with the surface of a second polymeric material and optionally, an adhesive, under conditions effective to bond the surfaces together. The bond so formed is stronger than a corresponding bond between untreated polymeric materials.Type: GrantFiled: September 4, 1998Date of Patent: October 9, 2001Assignee: Schneider (USA) Inc.Inventor: Ni Ding
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Patent number: 6295714Abstract: A body implantable stent is formed of a plurality of strands arranged in two sets of coaxial helices, wound in opposite directions to form multiple crossings. At selected crossings, the adjacent strands are welded to one another, while at the remaining crossings the strands are free for limited movement relative to one another. The welds are formed in patterns that preferably enhance radial strength and rigidity, while having a minimal impact on axial bending flexibility. Preferred weld patterns in this regard include rings or circumferential rows, and helices, particularly with a steeper pitch than that of the strands. Stent fabrication preferably involves resistance welding at the crossings, and use of a tool to reuniformly compress the stent around and against the distal end region of a balloon catheter used later to deliver the stent to a treatment site.Type: GrantFiled: February 22, 2000Date of Patent: October 2, 2001Assignee: Schneider (USA) IncInventors: Suranjan Roychowdhury, Leonard Pinchuk, Eugen Hofmann, Susanne Hankh, Michael G. O'Connor, Jennifer E. Raeder-Devens, Jeannine B. Baden, Daniel J. Klima