Self-expanding stent for hollow organs

US 5,503,636 A
Filed: 05/26/1994
Issued: 04/02/1996
Est. Priority Date: 11/30/1992
Status: Expired due to Fees

First Claim

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1. Stent for at least one of splinting and holding open a hollow organ comprising filaments woven into a tubular self-expanding meshwork, the filaments having rectangular shaped cross sections and weavingly overlapping at crossing points, and also comprising an elastic plastic jacketing encasing the crossing points to form a fixed joint thereon, whereby, in a collapsed state, the stent is stretched in an axial direction and, in a expanded state, is shortened in the axial direction, the stent further comprising a hydrophilic layer integral with the filaments.

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Abstract

A stent for the splinting and/or for the holding open of a hollow organ is comprised from filaments 11 which are formed together into a tubular and self-expanding netting. In the collapsed state the stent 10 is stretched in an axial direction and in an extended state the stent is fore-shortened in the axial direction. The filaments 11 are formed with rectangular cross-section and the crossing-points 12 are securely attached to another at the free ends 14 and 15.

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11 Claims

1. Stent for at least one of splinting and holding open a hollow organ comprising filaments woven into a tubular self-expanding meshwork, the filaments having rectangular shaped cross sections and weavingly overlapping at crossing points, and also comprising an elastic plastic jacketing encasing the crossing points to form a fixed joint thereon, whereby, in a collapsed state, the stent is stretched in an axial direction and, in a expanded state, is shortened in the axial direction, the stent further comprising a hydrophilic layer integral with the filaments.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The stent of claim 1, wherein the filaments are metal.
  - 3. The stent of claim 1, wherein the elastic plastic jacketing encases the filaments.
  - 4. The stent of claim 1, wherein the meshwork has free spaces formed between the filaments in both the collapsed and expanded states, the free spaces being spanned by an elastic material.
  - 5. The stent of claim 1, wherein the filaments exhibit an intrinsic bend direction and are woven into the tubular meshwork to curve in a direction opposite to the intrinsic bend direction.

6. Stent for at least one of splinting and holding open a hollow organ comprising a first tube helically wound in a first winding direction from a first filament having rectangular cross section;
- a second tube helically wound in a second winding direction from a second filament having rectangular cross section, the first and the second filaments being woven through another to form a self-supporting meshwork having crossing points defining rhombic-shaped openings in an outer cylindrical surface; and
  
  an elastic plastic jacketing encasing the crossing points to form a fixed joint thereon, whereby, in a collapsed state, the stent is stretched in an axial direction and, in an expanded state, is shortened in the axial direction, the stent further comprising a hydrophilic layer integral with the filaments.
- View Dependent Claims (8)
- - 8. The stent of claim 6, wherein the filaments exhibit an intrinsic bend direction and are woven into the tubular meshwork to curve in a direction opposite to the intrinsic bend direction.

7. Stent for at least one of splinting and holding open a hollow organ comprising filaments woven into tubular self-expanding meshwork having a longitudinal cylindrical surface and two ends, the filaments having rectangular shaped cross sections and weavingly overlapping to form crossing points along the longitudinal surface and at the two ends, and also comprising an elastic plastic jacketing encasing the crossing points to form a fixed joint thereon, whereby, in a collapsed state, the stent is stretched in an axial direction and, in an expanded state, is shortened in the axial direction, the stent further comprising a hydrophilic layer integral with the filaments.
- View Dependent Claims (9)
- - 9. The stent of claim 7, wherein the filaments exhibit an intrinsic bend direction and are woven into the tubular meshwork to curve in a direction opposite to the intrinsic bend direction.

10. Stent for at least one of splinting and holding open a hollow organ comprising filaments woven into a tubular self-expanding meshwork, the filaments having rectangular shaped cross sections and weavingly overlapping at crossing points having elastic fixed joints therebetween, the stent further comprising a hydrophilic layer integral with the filaments.
- View Dependent Claims (11)
- - 11. The stent of claim 10 wherein the crossing points are encased by an elastic plastic jacketing.

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Current Assignee
Willy Rüsch AG
Original Assignee
Willy Rüsch AG
Inventors
Schmitt, Klaus, Amstrup, Mogens, Klepetiko, Walter, Entenmann, Helmuth, Singvogel, Armin
Primary Examiner(s)
Pellegrino, Stephen C.
Assistant Examiner(s)
LEWIS, WILLIAM W

Application Number

US08/249,724
Time in Patent Office

677 Days
Field of Search

606/191, 606/198, 606/200, 128/899, 604/104-106, 623/1, 623/12
US Class Current

623/1.2
CPC Class Codes

A61F 2/90 characterised by a net-like...

Self-expanding stent for hollow organs

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

68 Citations

11 Claims

Specification

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Self-expanding stent for hollow organs

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

68 Citations

11 Claims

Specification

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Use Cases

Quick Links

Others