Involuted spring stent and graft assembly and method of use
First Claim
1. A method of shaping and delivering an intraluminal stent for low profile delivery into a body lumen, the method comprising:
- providing a tubular member having a distal end, a proximal end, and an implantable diameter formed by a plurality of helical coils;
reducing said implantable diameter of said tubular member by bending said helical coils into lobe-shaped members to form an involuted spring stent having a delivery diameter;
inserting said involuted spring stent into a sheath by providing a rotating screw within said sheath, and turning said screw to coil said involuted spring stent into said sheath;
delivering said sheath and said involuted spring stent intraluminally through the body lumen; and
withdrawing said sheath proximally and implanting said involuted spring stent in the body lumen.
1 Assignment
0 Petitions
Accused Products
Abstract
An apparatus and method for forming or shaping an intraluminal stent for low profile delivery into a body lumen. A nickel titanium intraluminal stent has a tubular member formed from a plurality of coils which are bent to form lobe-shaped members, like a cloverleaf, to reduce the profile of the tubular member and form an involuted spring stent. The involuted spring stent will transform to the implanted diameter of the tubular member when exposed to body heat. The involuted spring stent can be attached to a tubular graft, or coated with a polymeric material to form an involuted spring graft, both of which can be used to repair aortic aneurysms.
129 Citations
4 Claims
-
1. A method of shaping and delivering an intraluminal stent for low profile delivery into a body lumen, the method comprising:
-
providing a tubular member having a distal end, a proximal end, and an implantable diameter formed by a plurality of helical coils; reducing said implantable diameter of said tubular member by bending said helical coils into lobe-shaped members to form an involuted spring stent having a delivery diameter; inserting said involuted spring stent into a sheath by providing a rotating screw within said sheath, and turning said screw to coil said involuted spring stent into said sheath; delivering said sheath and said involuted spring stent intraluminally through the body lumen; and withdrawing said sheath proximally and implanting said involuted spring stent in the body lumen. - View Dependent Claims (2)
-
-
3. The method of delivering and implanting a graft and stent assembly, including a tubular member having a distal end and a proximal end, said tubular member having a first implanted diameter defined by a plurality of coils, bending said coils of said tubular member into lobe-shaped members forming an involuted spring stent having a second delivery diameter, and a tubular graft having a first end and a second end, the method comprising:
-
attaching a portion of said first end of said stent to said first end of said graft to form a graft and stent assembly; inserting said graft and stent assembly into a sheath mounted on a catheter by providing a rotating screw within said sheath to wind said involuted spring stent onto said rotating screw so that said involuted spring stent and said graft are retained by said sheath; percutaneously inserting said catheter with said graft and stent assembly into a body lumen and intraluminally transporting said graft and stent assembly; positioning said graft portion of said graft and stent assembly to span an aortic aneurysm; withdrawing said sheath to expose said graft and stent assembly; implanting said graft and stent assembly in the aorta; and withdrawing said sheath and said catheter from the body lumen. - View Dependent Claims (4)
-
Specification