Abstract: A prosthetic heart valve with a dihedral guard safety mechanism includes a base, three or more leaflets that extend from the base, hinges located at the connection between the base and each leaflet, allowing the leaflet to rotate, a dihedral guard that protrudes out from the inner edge of the base, and a dihedral guard slot on the bottom face of each leaflet that forms a flush connection with the dihedral guard safety mechanism when the prosthetic heart valve is in a closed position. The dihedral guard is set at a specified angle and lays under each leaflet, preventing the leaflets from falling to a position or angle lower than the dihedral guard when the valve is subject to negative pressure, in turn, mitigating a potential prosthetic heart valve failure.

Abstract: Described embodiments are directed toward prosthetic valve leaflets of particular configurations that control bending character. In embodiments provided herein, valve leaflets are operable to bend along a base of the valve leaflets.

Abstract: The invention discloses an artificial valve (10, 20) for implantation in a mammal aorta or heart as an auxiliary aortic valve in addition to an aortic valve. The artificial valve (10, 20) comprises at least a first (12,17) moving part adapted to be able to move to assume an open and a closed position for opening and closing, respectively, of the blood flow through a blood vessel. The artificial valve (10, 20) also comprises a casing (14, 24), and said at least one first (12,17) moving part is movably attached to said casing (14, 24). The artificial valve (10, 20) is adapted to let the at least one moving part initiate its movement to the open position at a level of blood pressure on a blood supplying side of the valve which is at least 5 mm Hg higher than the mammal's diastolic aortic blood pressure on the other side of the valve.

Abstract: A multi-leaflet cardiovascular valve having a generally annular valve body (1) and at least two leaflets (4, 5) mounted within the valve body such that the leaflets rotate around a central axis (11) and a transverse pivoting axis (12) between an open configuration wherein blood is permitted to flow through the annular valve body and a closed configuration wherein blood is prevented from flowing in at least one direction through the annular valve body. During the open configuration, the leaflets rotate around the flow axis.

Abstract: A prosthetic valve adapted to be inserted into a blood vessel and held in a desired position therein. The valve includes an annular support ring having a longitudinal axis and defining a substantially circular central opening for passage of blood. The support ring has an outer wall that may be formed with a central annular depression. A leaflet is mounted on the support ring for pivotal movement between a closed position wherein the leaflet substantially blocks the central opening and an open position wherein blood is permitted through the opening. The valve is adapted to be inserted into the blood vessel such that the support ring longitudinal axis is substantially coincident with an axis of elongation of said blood vessel and held in such position in suitable fashion, such as by suturing or by way of a tightened cord holding a proximate portion of the blood vessel against the support outer wall if it is formed with an annular depression.

Abstract: A rigid leaflet blood check valve uses a torsion wire suspension to suspend the leaflet. The leaflet is non-contacting with the housing. Complete washout of all valve parts in blood contact exists. This eliminates areas of blood stasis which exist in valves employing conventional pivot bearings. Relative motion, wear, and washout problems have been eliminated in the valve.