Replacement semilunar heart valve
First Claim
1. A replacement semilunar heart valve for placement in a ventricular outflow artery of a patient, comprising:
- a thin and flexible wall portion with diametrically opposing sides;
an inlet end and an outlet end, the inlet end sized and adapted to be circumferentially secured substantially at a valve annulus formed by removing a native semilunar heart valve;
three securement locations adjacent the outlet end and spaced from each other, the securement locations adapted to be attached to a wall of the artery; and
three unconstrained regions between the securement locations, each of the unconstrained regions adapted to flex inwardly into and out of engagement with others of the unconstrained regions in response to force by blood pressure, said unconstrained regions adapted to cause the valve to be normally open and to close as the heart cycle changes from systole to diastole, wherein the replacement semilunar heart valve is derived from one or more of the following materials;
synthetic material, pericardial sac, fascia lata, intestinal tissue segment, or animal tissue culture.
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Accused Products
Abstract
A method is disclosed for using tubular material to replace a semilunar heart valve (i.e., an aortic or pulmonary valve). To create such a replacement valve, the native valve cusps are removed from inside an aorta or pulmonary artery, and the inlet end of a tubular segment is sutured to the valve annulus. The outlet (distal) end of the tube is either “tacked” at three points distally, or sutured longitudinally along three lines; either method will allow the flaps of tissue between the suture lines to function as movable cusps. This approach generates flow patterns that reduce turbulence and closely duplicate the flow patterns of native semilunar valves. An article of manufacture is also disclosed, comprising a sterile biocompatible synthetic material which has been manufactured in tubular form, by methods such as extrusion or coating a cylindrical molding device, to avoid a need for a suture line or other seam to convert a flat sheet of material into a tubular shape. The synthetic tube is packaged within a sealed watertight enclosure that maintains sterility of the tube.
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Citations
8 Claims
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1. A replacement semilunar heart valve for placement in a ventricular outflow artery of a patient, comprising:
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a thin and flexible wall portion with diametrically opposing sides;
an inlet end and an outlet end, the inlet end sized and adapted to be circumferentially secured substantially at a valve annulus formed by removing a native semilunar heart valve;
three securement locations adjacent the outlet end and spaced from each other, the securement locations adapted to be attached to a wall of the artery; and
three unconstrained regions between the securement locations, each of the unconstrained regions adapted to flex inwardly into and out of engagement with others of the unconstrained regions in response to force by blood pressure, said unconstrained regions adapted to cause the valve to be normally open and to close as the heart cycle changes from systole to diastole, wherein the replacement semilunar heart valve is derived from one or more of the following materials;
synthetic material, pericardial sac, fascia lata, intestinal tissue segment, or animal tissue culture.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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Specification