Cardiovascular grafts
First Claim
Patent Images
1. A vascular prosthesis for implantation in a living body comprising:
- a tubular configuration of organopolymeric fabric;
dense, isotropic carbon coating along at least the interior surface of said tubular configuration; and
a biocompatible wire in the form of a helical spring of uniform spring diameter disposed inside said tubular configuration and having an outside spring diameter such that said spring is in surface contact with said carbon coated interior of said tubular configuration;
said spring having a pitch not greater than twice the diameter of said wire;
whereby a blood compatible surface is defined on the interior of said prosthesis where said blood compatible surface consists of at least 50% exposed surface of said spring and the remainder of said blood compatible surface consists of portions of said interior surface of said tubular configuration.
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Accused Products
Abstract
Springs are used to form cardiovascular grafts.
A tightly wound spring coated with carbon while in a stretched position will have a biocompatible interior surface which provides an unobstructed passageway for blood. Fabric sleeves may be employed around springs to improve the fluid integrity of the interior surfaces.
Springs may also be used to join blood vessel segments by puncturing one segment of the blood vessel with a first end of a spring, coiling the spring therearound, puncturing a second segment of the blood vessel with a second end of the spring and coiling the spring therearound.
309 Citations
13 Claims
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1. A vascular prosthesis for implantation in a living body comprising:
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a tubular configuration of organopolymeric fabric; dense, isotropic carbon coating along at least the interior surface of said tubular configuration; and a biocompatible wire in the form of a helical spring of uniform spring diameter disposed inside said tubular configuration and having an outside spring diameter such that said spring is in surface contact with said carbon coated interior of said tubular configuration; said spring having a pitch not greater than twice the diameter of said wire; whereby a blood compatible surface is defined on the interior of said prosthesis where said blood compatible surface consists of at least 50% exposed surface of said spring and the remainder of said blood compatible surface consists of portions of said interior surface of said tubular configuration. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for grafting a first segment with a second segment of a small blood vessel comprising:
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cuffing back a first and a second end of a tubular configuration of organopolymeric fabric and dense isotropic carbon coating along an interior surface of said tubular configuration, where said tubular configuration is disposed around a helical spring which is biocompatible with blood and vascular tissue and which has a first terminus and a second terminus bent outward from an axis of said helix, puncturing the first segment of the blood vessel with said first terminus from the inside to the outside of the blood vessel, rotating said spring about its axis in a first direction a plurality of turns thereby winding said spring around the first segment of the blood vessel; puncturing the second segment with said second terminus from the inside to the outside of the blood vessel; rotating said spring around its axis in a second direction a plurality of turns thereby winding said spring around the second segment until severed coils are wound around the second segment while several coils remain wound around the first segment; and uncuffing said tubular configuration so that said tubular configuration extends over the junctions of said spring and the first and second segments whereby the first segment and the second segment are joined together to form a unitary blood conduit. - View Dependent Claims (11, 12, 13)
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Specification