Disk-based valve apparatus and method for the treatment of valve dysfunction

What is claimed is: 1. A method of deploying a prosthetic cardiac valve in a patient, the method comprising: inserting the prosthetic cardiac valve in a collapsed configuration within a dysfunctional mitral valve in the patient's heart, the prosthetic cardiac valve including a distal portion, a proximal portion, and a central portion therebetween; permitting the distal portion to self-expand such that the distal portion flares radially outward relative to the collapsed configuration and relative to the central portion, the flared distal portion forming a distal disk having a convex annular shape such that the distal disk points distally; pulling the distal disk proximally into a plane of the dysfunctional mitral valve; engaging mitral valve tissue with a plurality of hooks disposed on the distal disk proximal to a distal end of the prosthetic cardiac valve; permitting the proximal portion to self-expand on an opposite side of the dysfunctional mitral valve such that the proximal portion flares radially outward relative to the collapsed configuration and relative to the central portion, the flared proximal portion forming a proximal disk, wherein pulling the distal disk proximally occurs prior in time to permitting the proximal portion to self-expand; and permitting the central portion of the valve anchor to self-expand within the dysfunctional mitral valve to move the distal and proximal disks toward each other to compress the dysfunctional mitral valve. 2. The method of claim 1 , wherein the distal portion further comprises a plurality of interconnected loops that form the distal disk when the distal portion self-expands. 3. The method of claim 2 , wherein tips of the loops point distally when the distal portion forms a disk having a convex shape. 4. The method of claim 1 , wherein the proximal portion further comprises a plurality of interconnected loops that form the proximal disk when the proximal portion self-expands. 5. The method of claim 1 , wherein pulling the distal disk proximally into a plane of the dysfunctional mitral valve comprises pulling the distal disk proximally such that the distal disk forms a convex annular shape around the dysfunctional mitral valve. 6. A prosthetic cardiac valve, comprising: a distal portion, a proximal portion, and a central portion therebetween; wherein the distal portion is self-expandable from a collapsed configuration to an expanded configuration, the distal portion in the expanded configuration shaped as a distal disk that is flared radially outward relative to the collapsed configuration of the distal portion and relative to the central portion, the distal disk having a convex annular shape such that the distal disk point distally, and the distal portion in the expanded configuration further comprising a plurality of hooks; wherein the proximal portion is self-expandable from a collapsed configuration to an expanded configuration, the proximal portion in the expanded configuration shaped as a proximal disk that is flared radially outwards relative to the collapsed configuration of the proximal portion and relative to the central portion; and wherein the central portion is configured to self-expand to move the proximal and distal portions towards one another. 7. The prosthetic mitral valve of claim 6 , wherein the distal disk comprises a plurality of interconnected loops. 8. The prosthetic mitral valve of claim 7 , wherein tips of the loops point distally when the distal portion is in the expanded configuration. 9. The prosthetic mitral valve of claim 6 , wherein the proximal disk further comprises a plurality of interconnected loops. 10. The prosthetic mitral valve of claim 6 , wherein the prosthetic mitral valve comprises a shape memory material. 11. The prosthetic mitral valve of claim 10 , wherein the shape memory material is Nitinol. 12. The prosthetic mitral valve of claim 6 , wherein the prosthetic mitral valve comprises a plurality of wires that form the proximal, distal, and central portions.