Valvular insufficiency repair device and method

What is claimed is: 1. A method, comprising: implanting a support frame in a native heart valve, the support frame comprising a main body configured as a clover formed by a plurality of angled struts and a leaflet-engaging mechanism coupled to the main body and configured to secure the support frame at the native heart valve, wherein the leaflet-engaging mechanism comprises retaining arms and implanting the support frame further comprises moving the retaining arms between two positions and through sleeves coupled to the main body. 2. The method of claim 1 , wherein the clover comprises three apices formed by an intersection of adjacent struts of the plurality of angled struts. 3. The method of claim 1 , wherein: the retaining arms are coupled to elongated members of a delivery device, and the method further comprises moving the elongated members to move the retaining arms between the two positions. 4. The method of claim 1 , wherein: the leaflet-engaging mechanism comprises clipping members, wherein each clipping member includes one of the retaining arms; and implanting the support frame further comprises engaging leaflets of the native heart valve with the clipping members. 5. The method claim 4 , wherein each clipping member includes a plurality of outer protrusions and implanting the support frame further comprises engaging outflow sides of the leaflets of the native heart valve with the plurality of outer protrusions. 6. The method of claim 1 , wherein: implanting the support frame further comprises advancing the support frame through a patient's body in a radially collapsed state; and at least partially advancing the support frame from a delivery sheath such that the support frame expands to an expanded state. 7. The method of claim 1 , further comprising reducing a valvular orifice area of the native heart valve with the support frame. 8. The method of claim 1 , further comprising deploying a prosthetic heart valve in the support frame. 9. The method of claim 1 , wherein implanting the support frame further comprises engaging inflow sides of the leaflets of the native heart valve with the plurality of angled struts of the clover. 10. A method, comprising: delivering a support frame to a native heart valve with a delivery device, the support frame comprising: a main body configured as an inner clover formed by a plurality of inner, angled struts; and a leaflet-securing portion coupled to the main body and comprising a plurality of coupling members releasably connected to a plurality of elongated members of the delivery device during delivery of the support frame to the native heart valve; implanting the support frame in the native heart valve such that each of the plurality of inner, angled struts forming the inner clover is disposed on an inflow side of the leaflets of the native heart valve and the leaflet-securing portion is disposed on an outflow side of the leaflets of the native heart valve to secure the support frame at the native heart valve; releasing the coupling members from the elongate members of the delivery device after implanting the support frame in the native heart valve; and deploying a prosthetic heart valve in the support frame, wherein deploying the prosthetic heart valve in the support frame comprises expanding the prosthetic heart valve from a radially compressed state to a radially expanded state in the support frame after implanting the support frame in the native heart valve, wherein the leaflet-securing portion comprises a plurality of clipping members coupled to apices of the inner clover, and wherein the leaflets of the native heart valve are pinched between the clipping members and the inner clover at commissures of the native heart valve when the support frame is implanted. 11. The method of claim 10 , wherein the inner clover comprises three apices formed by an intersection of adjacent struts of the plurality of inner, angled struts. 12. The method of claim 10 , wherein: delivering the support frame further comprises advancing the support frame through a patient's body in a radially collapsed state; and at least partially advancing the support frame from a delivery sheath of the delivery device such that the support frame expands to an expanded state. 13. The method of claim 10 , further comprising reducing a valvular orifice area of the native heart valve with the support frame. 14. The method of claim 10 , wherein each clipping member comprises a retaining arm and two outer protrusions. 15. The method of claim 10 , wherein the coupling members are configured as claws that are releasably connected to spherical end portions of the elongated members of the delivery device during the act of delivering. 16. A method comprising: implanting a support frame in a native heart valve, the support frame comprising: a main body configured as an inner clover formed by a plurality of inner, angled struts; and a leaflet-securing portion coupled to the main body, wherein the main body and the leaflet-securing portion are configured to secure the support frame at the native heart valve, and wherein each of the plurality of inner, angled struts forming the inner clover is disposed on an inflow side of the leaflets of the native heart valve and the leaflet-securing portion is disposed on an outflow side of the leaflets of the native heart valve, wherein: the leaflet-securing portion is a leaflet-engaging mechanism coupled to the main body and comprises a plurality of clipping members, wherein each clipping member includes a retaining arm and two outer protrusions; and implanting the support frame further comprises engaging the leaflets of the native heart valve with the plurality of clipping members such that the outer protrusions are located on the outflow side of the leaflets of the native heart valve. 17. The method of claim 16 , wherein: wherein implanting the support frame further comprises moving the retaining arms between two positions and through sleeves coupled to the main body. 18. The method of claim 17 , wherein the retaining arms are coupled to elongated members of a delivery device; and the method further comprises moving the elongated members to move the retaining arms between the two positions. 19. A method, comprising: delivering a support frame to a native heart valve with a delivery device, the support frame comprising: a main body configured as an inner clover formed by a plurality of inner, angled struts; and a leaflet-securing portion coupled to the main body and comprising a plurality of coupling members releasably connected to a plurality of elongated members of the delivery device during delivery of the support frame to the native heart valve, wherein the coupling members are configured as claws that are releasably connected to spherical end portions of the elongated members of the delivery device during the act of delivering; implanting the support frame in the native heart valve such that each of the plurality of inner, angled struts forming the inner clover is disposed on an inflow side of the leaflets of the native heart valve and the leaflet-securing portion is disposed on an outflow side of the leaflets of the native heart valve to secure the support frame at the native heart valve; releasing the coupling members from the elongate members of the delivery device after implanting the support frame in the native heart valve; and deploying a prosthetic heart valve in the support frame, wherein deploying the prosthetic heart valve in the support frame