Prosthetic valve for replacing mitral valve

We claim: 1. A prosthetic heart valve for implantation at a native mitral valve of a heart, comprising: a docking frame having an atrial end portion and a ventricular end portion and comprising a plurality of first struts arranged in a lattice pattern and defining a first lumen, wherein the docking frame is radially compressible to a radially-compressed state for delivery into the heart and is self-expandable from the radially-compressed state to a radially-expanded state; a prosthetic valve frame comprising a plurality of second struts arranged in a lattice pattern and defining a second lumen, wherein the prosthetic valve frame is disposed within the first lumen of the docking frame, and wherein the prosthetic valve frame is radially compressible to a radially-compressed state for delivery into the heart and is self-expandable from the radially-compressed state to a radially-expanded state; a valve structure comprising three leaflets made from pericardium, wherein the valve structure is mounted within the second lumen of the prosthetic valve frame; an atrial sealing member coupled to and extending radially outwardly from the atrial end portion of the docking frame, wherein the atrial sealing member is configured to engage native tissue of the heart on an atrial side of the native mitral valve when the docking frame is disposed within an annulus of the native mitral valve and is in the radially-expanded state; and a plurality of prongs coupled to and extending radially outwardly from the docking frame, wherein the prongs are configured to penetrate tissue of native leaflets when the docking frame is disposed within an annulus of the native mitral valve and is in the radially-expanded state. 2. The prosthetic heart valve of claim 1 , wherein the docking frame, the prosthetic valve frame, and the atrial sealing member comprise shape-memory material, and wherein the docking frame and the atrial sealing member are integrally formed as a single component of the shape-memory material. 3. The prosthetic heart valve of claim 1 , further comprising a material layer disposed radially between the docking frame and the prosthetic valve frame. 4. The prosthetic heart valve of claim 3 , wherein the prosthetic heart valve further comprises one or more fabric cuffs that extend around the ventricular end portion of the docking frame. 5. The prosthetic heart valve of claim 3 , wherein the material layer is a first material layer, and wherein the prosthetic heart valve further comprises a second material layer extending over at least a portion of the atrial sealing member. 6. The prosthetic heart valve of claim 5 , further comprising a third material layer disposed radially between the prosthetic valve frame and the valve structure. 7. The prosthetic heart valve of claim 1 , further comprising a material layer disposed radially between the prosthetic valve frame and the valve structure. 8. The prosthetic heart valve of claim 1 , further comprising a material layer, wherein the material layer extends radially between the docking frame and the prosthetic valve frame and extends around a ventricular end of the docking frame. 9. A prosthetic heart valve for implantation at a native mitral valve of a heart, comprising: a scaffolding structure having an atrial end and a ventricular end and comprising a plurality of first struts arranged in a lattice pattern and defining a first lumen, wherein the scaffolding structure is radially compressible to a radially-compressed state for delivery into the heart and is self-expandable from the radially-compressed state to a radially-expanded state; and a prosthetic valve frame comprising a plurality of second struts arranged in a lattice pattern and defining a second lumen, wherein the prosthetic valve frame is disposed within the first lumen of the scaffolding structure, and wherein the prosthetic valve frame is radially compressible to a radially-compressed state for delivery into the heart and is self-expandable from the radially-compressed state to a radially-expanded state; a valve structure comprising three leaflets made from pericardium, wherein the valve structure is mounted within the second lumen of the prosthetic valve frame; and an atrial sealing member coupled to and extending radially outwardly from the atrial end of the scaffolding structure, wherein the atrial sealing member is configured to engage native tissue of the heart on an atrial side of the native mitral valve when the scaffolding structure is disposed within an annulus of the native mitral valve and is in the radially-expanded state. 10. The prosthetic heart valve of claim 9 , wherein the first struts of the scaffolding structure are coupled together to form junctions, and wherein the prosthetic heart valve further comprises a plurality of anchoring members that are coupled to and extend radially outwardly from the junctions for engaging surrounding tissue. 11. The prosthetic heart valve of claim 10 , wherein the anchoring members comprise prongs that are upwardly bent toward the atrial end of the scaffolding structure to prevent the prosthetic heart valve from migrating in an atrial direction. 12. The prosthetic heart valve of claim 9 , wherein the atrial sealing member is formed of metal struts that form a zig-zag pattern. 13. A prosthetic heart valve for implantation at a native mitral valve of a heart, comprising: a metal scaffolding structure having an atrial end portion and a ventricular end portion and comprising a plurality of first struts arranged in a lattice pattern and defining a first lumen, wherein the scaffolding structure is radially compressible to a radially-compressed state for delivery into the heart and is expandable from the radially-compressed state to a radially-expanded state; a metal prosthetic valve frame comprising a plurality of second struts arranged in a lattice pattern and defining a second lumen, wherein the prosthetic valve frame is disposed within the first lumen of the scaffolding structure, and wherein the prosthetic valve frame is radially compressible to a radially-compressed state for delivery into the heart and is expandable from the radially-compressed state to a radially-expanded state; a first material layer disposed radially between the prosthetic valve frame and the scaffolding structure; a valve structure comprising three leaflets made from pericardium, wherein the valve structure is mounted within the second lumen of the prosthetic valve frame; a metal atrial flange coupled to and extending radially outwardly from the atrial end portion of the scaffolding structure, wherein the atrial flange is configured to engage native tissue of the heart on an atrial side of the native mitral valve when the scaffolding structure is disposed within an annulus of the native mitral valve and is in the radially-expanded state; and a plurality of metal prongs coupled to and extending radially outwardly from the scaffolding structure, wherein the prongs are configured to penetrate tissue of native leaflets when the scaffolding structure is disposed within an annulus of the native mitral valve and is in the radially-expanded state. 14. The prosthetic heart valve of claim 13 , further comprising a second material layer disposed radially between the prosthetic valve frame and the valve structure, wherein the valve structure is coupled to the second material layer. 15. The prosthetic heart valve of claim 13 , wherein the first material layer extends over at least a portion of the atrial flange. 16. The prosthetic heart valve of claim 13 , wherein the atrial flange is formed of meta