Method and device for performing endovascular repair of aneurysms
First Claim
1. A blood vessel wall-defining device for repairing an aneurysm comprising in combination,a percutaneously-insertable structural frame extending between first and second ends having an unexpanded diameter which is smaller than the diameter of said blood vessel to allow said structural frame to be percutaneously placed into said blood vessel, said structural frame being expansible to form a generally cylindrical structural skeleton having a slightly larger diameter than said blood vessel to facilitate the securing of said structural skeleton in position in said blood vessel;
- andan independently, percutaneously-insertable, expansible tubular member extending between first and second ends constructed to be percutaneously placed subsequent to the placement of said structural frame, said tubular member comprising a thin-walled flexible tubular membrane extending between said first and second ends, said membrane being essentially impermeable to blood and blood products, and means for expanding and holding said thin-walled flexible tubular membrane adjacent to the inside of said structural skeleton, in cooperative relationship therewith, in a manner that the outer surface of said thin-walled flexible tubular membrane is held in secure contact with the inside of said previously-placed structural skeleton.
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Accused Products
Abstract
A blood vessel wall-defining device and method for using the device for repairing an aneurysm. The device comprises in combination, a percutaneously-insertable structural frame extending between first and second ends having an unexpanded diameter which is smaller than the diameter of the blood vessel to allow the structural frame to be percutaneously placed into the blood vessel, the structural frame being expansible to form a generally cylindrical structural skeleton having a slightly larger diameter than the blood vessel to facilitate the securing of the structural skeleton in position in the blood vessel, and an independently, percutaneously-insertable, expansible tubular member extending between first and second ends constructed to be percutaneously placed subsequent to the placement of the structural frame, the tubular member comprising a thin-walled flexible tubular membrane extending between the first and second ends of the tubular member, the thin-walled flexible tubular membrane being essentially impermeable to blood and blood products, and means for expanding and holding the thin-walled flexible tubular membrane adjacent the inside of the structural skeleton, in a cooperative relationship therewith, in a manner that the outer surface of the thin-walled flexible tubular membrane is held in secure contact with the inside of the previously-placed structural skeleton.
633 Citations
22 Claims
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1. A blood vessel wall-defining device for repairing an aneurysm comprising in combination,
a percutaneously-insertable structural frame extending between first and second ends having an unexpanded diameter which is smaller than the diameter of said blood vessel to allow said structural frame to be percutaneously placed into said blood vessel, said structural frame being expansible to form a generally cylindrical structural skeleton having a slightly larger diameter than said blood vessel to facilitate the securing of said structural skeleton in position in said blood vessel; - and
an independently, percutaneously-insertable, expansible tubular member extending between first and second ends constructed to be percutaneously placed subsequent to the placement of said structural frame, said tubular member comprising a thin-walled flexible tubular membrane extending between said first and second ends, said membrane being essentially impermeable to blood and blood products, and means for expanding and holding said thin-walled flexible tubular membrane adjacent to the inside of said structural skeleton, in cooperative relationship therewith, in a manner that the outer surface of said thin-walled flexible tubular membrane is held in secure contact with the inside of said previously-placed structural skeleton. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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2. A blood vessel wall-defining device for repairing an aneurysm in an aorta comprising in combination,
a percutaneously-insertable structural frame extending between first and second ends having an unexpanded diameter sufficiently smaller than the diameter of said aorta to allow said structural frame to be percutaneously placed into said aorta, said structural frame being expansible to form a generally cylindrical structural skeleton having an expanded diameter of the order of 2 centimeters or more, said expanded diameter being slightly larger than the diameter of said aorta, to facilitate the securing of said structural skeleton in position in said aorta, said first and second ends of said structural skeleton being spaced about 10 centimeters or more apart; - and
an independently, percutaneously-insertable, expansible, tubular member extending between first and second ends, the distance between said first and second ends substantially corresponding to the distance between said first and second ends of said structural skeleton, and constructed to be percutaneously placed into said aorta subsequent to the placement of said structural frame, said tubular member comprising a thin-walled flexible tubular membrane extending between said first and second ends, said membrane being essentially impermeable to blood and blood products, and means for expanding and holding said thin-walled flexible tubular membrane adjacent to the inside of said structural skeleton, in cooperative relationship therewith, in a manner that the outer surface of said thin-walled flexible tubular membrane is held in secure contact with the inside of said previously-placed structural skeleton.
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20. A method for repairing an aneurysm in a blood vessel via interventional radiological techniques comprising the steps of;
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determining the length of said aneurysm and the diameter of said blood vessel; providing a structural frame extending between first and second ends having a diameter which is smaller than the diameter of said blood vessel, said structural frame being expansible to form a generally cylindrical structural skeleton having a slightly larger diameter than said blood vessel; inserting said structural frame percutaneously in unexpanded form into said blood vessel at a site proximal or distal to said aneurysm and moving said structural frame to the site of said aneurysm; causing the expansion of said frame to form said structural skeleton, and anchoring at least said first and second ends to the walls of said blood vessel above and below said aneurysm; providing an expansible tubular member extending between first and second ends, said tubular member comprising a thin-walled flexible tubular membrane extending between said first and second ends, said thin-walled flexible tubular membrane being essentially impermeable to blood and blood products, and means for expanding and holding said thin-walled flexible tubular membrane adjacent to the inside of said structural skeleton; independently inserting said tubular member percutaneously in unexpanded form into said blood vessel at a site distal to said aneurysm and moving said tubular member into said structural skeleton previously disposed within said blood vessel; and causing the expansion and anchoring of said tubular member adjacent the inside of said structural skeleton, the outer surface of said tubular member engaging said structural skeleton, whereby the combination of said structural skeleton and said tubular member cooperate to define a graft-form section of said blood vessel that isolates said aneurysm from hemodynamic pressure. - View Dependent Claims (21)
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22. A method for repairing an aneurysm in an aorta via interventional radiological techniques comprising the steps of:
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determining the length of said aneurysm and the diameter of said aorta; providing a structural frame extending between first and second ends having a diameter sufficiently smaller than the diameter of said aorta to allow said structural frame to be percutaneously introduced into said aorta, said structural frame being expansible to form a generally cylindrical structural skeleton having an expanded diameter of the order of 2 centimeters or more, said expanded diameter being slightly larger than the diameter of said aorta, and there being a distance between said first and second ends of said structural skeleton of about 10 centimeters or more; inserting said structural frame percutaneously in unexpanded form into said aorta at a site proximal or distal to said aneurysm and moving said structural frame to the site of said aneurysm; causing the expansion of said frame to form said structural skeleton, and anchoring at least said first and second ends to the walls of said blood vessel above and below said aneurysm; providing an expansible, tubular member extending between first and second ends, the distance between said first and second ends being substantially the same as the distance between said first and second ends of said structural skeleton, said tubular member comprising a thin-walled flexible tubular membrane extending between said first and second ends, said thin-walled flexible tubular membrane being essentially impermeable to blood and blood products, and means for expanding and holding said thin-walled flexible tubular membrane adjacent to the inside of said structural skeleton; independently inserting said tubular member percutaneously in unexpanded form into said blood vessel at a site distal to said aneurysm and moving said tubular member into said structural skeleton previously disposed within said blood vessel; and causing the expansion and anchoring of said tubular member adjacent the inside of said structural skeleton, the outer surface of said tubular member engaging said structural skeleton, whereby the combination of said structural skeleton and said tubular member cooperate to define a graft-form section of said aorta that isolates said aneurysm from hemodynamic pressure.
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Specification