A cardiac implant system including a cardiac implant such as an annuloplasty ring, a prosthetic heart valve, or a valved conduit pre-assembled at the time of manufacture with devices for securing the implant to a heart valve annulus using knotless suture fasteners. The knotless suture fasteners may
A cardiac implant system including a cardiac implant such as an annuloplasty ring, a prosthetic heart valve, or a valved conduit pre-assembled at the time of manufacture with devices for securing the implant to a heart valve annulus using knotless suture fasteners. The knotless suture fasteners may be embedded within a pliant sealing edge of the cardiac implant, or they may be positioned adjacent to the sealing edge. The knotless suture fasteners are spring-biased so as to grip onto annulus anchoring sutures pass to therethrough upon removal of a restraining device, such as a hypotube inserted within the suture fasteners. Guide tubes are assembled in line with the suture fasteners to permit introduction of suture snares that pass through the suture fasteners and through the sealing edge to facilitate capture of the pre-installed annulus anchoring sutures.
대표청구항▼
1. A knotless heart valve system, comprising: a prosthetic heart valve having an inner frame arranged around a flow axis through the heart valve along which blood will flow from an inflow side to an outflow side thereof when implanted, and occluding members that provide one-way flow through the valv
1. A knotless heart valve system, comprising: a prosthetic heart valve having an inner frame arranged around a flow axis through the heart valve along which blood will flow from an inflow side to an outflow side thereof when implanted, and occluding members that provide one-way flow through the valve and mounted to move within the inner frame; anda plurality of knotless suture fasteners distributed around an outer periphery of the inner frame and attached to the heart valve, each fastener having an axial slot sized to receive a suture and facing radially outward such that a suture may be passed laterally into the axial slot of the fastener, each fastener having an open state which permits a suture to slide axially therethrough and a closed state which prevents axial movement of the suture in at least one direction, the heart valve being capable of being anchored to a native annulus without the use of knots by passing sutures pre-installed at the annulus into each fastener and converting the fasteners to their closed states. 2. The system of claim 1, wherein each suture fastener has an outer wall defining a lumen extending from a proximal end to a distal end and a collapsible wall structure, wherein the collapsible wall structure in the open state does not restrict relative movement between the fastener and a suture therein and the collapsible wall structure in the closed state restricts movement of a suture through the fastener in at least one direction, and wherein each fastener further includes a retention member coupled thereto in the open state, the retention member having a hypotube which fits closely within the lumen of the fastener and maintains the collapsible wall structure in its open state, and upon removal of the retention member and hypotube, the fastener converts to the closed state and the collapsible wall structure collapses inward to clamp onto a suture. 3. The system of claim 1, wherein each suture fastener comprises: a bifurcated locking clamp including a pair of substantially similar clamp halves each having an exterior surface and an inner surface facing the inner surface of the other clamp half to form a variable sized slot therebetween, the clamp halves being connected for movement toward or away from one another while being fixed axially with respect to one another, wherein the suture(s) extend through the slot between the inner surfaces of the clamp halves;a biasing member positioned on the outside of the locking clamp having a relaxed size that, in the absence of an object in the slot, urges the inner surfaces of the clamp halves together; anda retention member positioned between the clamp halves against the force of the biasing member and having a thickness that maintains the slot width large enough to permit passage of a suture therethrough, wherein removal of the retention member permits the biasing member to urge the inner surfaces of the clamp halves together and clamp the suture therebetween. 4. The system of claim 3, wherein the clamp halves are molded from a single piece of material with a living hinge on the first circumferential side. 5. The system of claim 3, wherein the clamp halves are hinged together on a first circumferential side such that the variable sized slot defines a variable sized opening on the side opposite the first circumferential side, and wherein the biasing member comprises a plurality of C-clips arranged around the locking clamp with their free ends located on either side of the variable sized slot opposite the first circumferential side. 6. The system of claim 1, wherein each fastener includes a retention member that when coupled to the fastener maintains the fastener in the open state and when removed converts the fastener to the closed state, and wherein a plurality of the retention members are tethered together. 7. The system of claim 1, further comprising a pliant sealing ring secured to and extending outward from the inner frame and having inflow and outflow faces, the sealing ring having formed therein a plurality of generally axial slits that open radially outward, each fastener being located adjacent one of the axial slits in the sealing ring such that a suture may be passed through the slit and into the axial slot of the fastener. 8. The system of claim 7, wherein each suture fastener is embedded within recesses formed in the pliant sealing ring. 9. The system of claim 7, wherein each suture fastener has an outwardly extending flange at a proximal end thereof sufficiently large to prevent the fastener from pulling through the pliant sealing ring. 10. The system of claim 7, wherein the pliant sealing ring has inflow and outflow faces, and each suture fastener is positioned outside of and in abutment with one of the inflow or outflow faces of the sealing ring. 11. A knotless annuloplasty ring system, comprising: an annuloplasty ring having a metallic core and a pliant sealing edge surrounding the core, the annuloplasty ring being arranged around a flow axis along which blood will flow from an inflow side to an outflow side of the annuloplasty ring when implanted, the pliant sealing edge having inflow and outflow faces; anda plurality of knotless suture fasteners distributed around the sealing edge and attached thereto, each fastener having an axial slot sized to receive a suture and facing radially outward such that a suture may be passed laterally into the axial slot of the fastener, each fastener having an open state which permits a suture to slide axially therethrough and a closed state which prevents axial movement of the suture in at least one direction, the annuloplasty ring being capable of being anchored to a native annulus without the use of knots by passing sutures pre-installed at the annulus into each fastener and converting the fasteners to their closed states. 12. The system of claim 11, wherein each suture fastener has an outer wall defining a lumen extending from a proximal end to a distal end and a collapsible wall structure, wherein the collapsible wall structure in the open state does not restrict relative movement between the fastener and a suture therein and the collapsible wall structure in the closed state restricts movement of a suture through the fastener in at least one direction, and wherein each fastener further includes a retention member coupled thereto in the open state, the retention member having a hypotube which fits closely within the lumen of the fastener and maintains the collapsible wall structure in its open state, and upon removal of the retention member and hypotube, the fastener converts to the closed state and the collapsible wall structure collapses inward to clamp onto a suture. 13. The system of claim 12, wherein each suture fastener has a flange extending outward from the outer wall at a proximal end thereof sufficiently large to prevent the fastener from pulling through the pliant sealing edge. 14. The system of claim 11, wherein each suture fastener comprises: a bifurcated locking clamp including a pair of substantially similar clamp halves each having an exterior surface and an inner surface facing the inner surface of the other clamp half to form a variable sized slot therebetween, the clamp halves being connected for movement toward or away from one another while being fixed axially with respect to one another, wherein the suture(s) extend through the slot between the inner surfaces of the clamp halves;a biasing member positioned on the outside of the locking clamp having a relaxed size that, in the absence of an object in the slot, urges the inner surfaces of the clamp halves together; anda retention member positioned between the clamp halves against the force of the biasing member and having a thickness that maintains the slot width large enough to permit passage of a suture therethrough, wherein removal of the retention member permits the biasing member to urge the inner surfaces of the clamp halves together and clamp the suture therebetween. 15. The system of claim 14, wherein the clamp halves are molded from a single piece of material with a living hinge on the first circumferential side. 16. The system of claim 14, wherein the clamp halves are hinged together on a first circumferential side such that the variable sized slot defines a variable sized opening on the side opposite the first circumferential side, and wherein the biasing member comprises a plurality of C-clips arranged around the locking clamp with their free ends located on either side of the variable sized slot opposite the first circumferential side. 17. The system of claim 11, wherein each fastener includes a retention member that when coupled to the fastener maintains the fastener in the open state and when removed converts the fastener to the closed state, and wherein a plurality of the retention members are tethered together. 18. The system of claim 11, wherein the sealing edge has a plurality of generally axial slits formed therein that open radially outward, and each fastener is located adjacent one of the axial slits in the sealing edge. 19. The system of claim 18, wherein each suture fastener is embedded within recesses formed in the pliant sealing edge. 20. The system of claim 18, wherein each suture fastener is positioned outside of and in abutment with one of the inflow or outflow faces of the sealing edge.
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