Prosthetic heart valve and delivery systems and methods

What is claimed is: 1 . An expandable prosthetic valve for implantation within a heart valve, the prosthetic valve comprising: an expandable valve body having an upstream end, a downstream end opposite the upstream end, and an intermediate portion extending between the upstream end and the downstream end, the valve body comprising: an outer frame comprising a plurality of outer frame struts intersecting at junctions of the outer frame struts; and an inner frame situated at least partially within the outer frame and comprising a plurality of inner frame struts intersecting at junctions of the inner frame struts, a plurality of tissue anchoring legs, each tissue anchoring leg extending from a junction of the outer frame struts that is within the intermediate portion of the valve body; and a connector pin that (a) is at an intersection of one of the tissue anchoring legs and two outer frame struts that are adjacent to the one of the tissue anchoring legs, and (b) connects the inner frame to the outer frame. 2 . The prosthetic valve of claim 1 , wherein the prosthetic valve is configured for implantation in a native mitral valve, and wherein the plurality of tissue anchoring legs are configured to extend radially outward from the valve body and in a non-ventricular direction, the plurality of tissue anchoring legs being configured to engage ventricular tissue of the native mitral valve. 3 . The prosthetic valve of claim 1 , further comprising a plurality of upstream tissue anchoring arms, each upstream tissue anchoring arm extending (a) radially outward from a junction of the inner frame struts that is within the intermediate portion of the valve body, and (b) in an upstream direction from the valve body. 4 . The prosthetic valve of claim 3 , wherein the plurality of upstream tissue anchoring arms are configured to extend radially outward beyond a terminal end of the one of the tissue anchoring legs. 5 . The prosthetic valve of claim 3 , wherein the plurality of upstream tissue anchoring arms are rotationally offset with respect to the plurality of tissue anchoring legs. 6 . The prosthetic valve of claim 1 , wherein a width of a radially outer surface of the one of the tissue anchoring legs is at least twice as large as a width of a radially outer surface of the outer frame strut that extends from the junction of the outer frame strut and the one of the tissue anchoring legs. 7 . The prosthetic valve of claim 1 , wherein the outer frame comprises pairs of first and second struts, wherein for each pair of first and second struts of the outer frame: the first strut extends from a junction of the first strut and a given tissue anchoring leg, the second strut extends from a junction of the second strut and a tissue anchoring leg adjacent to the given tissue anchoring leg, and the first and second struts meet at a first-and-second-strut junction between the first and second struts that is upstream of (1) the junction of the first strut and the given tissue anchoring leg and (2) the junction of the second strut and the tissue anchoring leg adjacent to the given tissue anchoring leg. 8 . The prosthetic valve of claim 1 , wherein a terminal end of the one of the tissue anchoring legs is disposed in an axial direction relative to the upstream end of the valve body. 9 . The prosthetic valve of claim 1 , wherein the one of the tissue anchoring legs and an adjacent tissue anchoring leg do not connect to the valve body at a common point of connection. 10 . The prosthetic valve of claim 1 , wherein the one of the tissue anchoring legs extends from a single junction of the outer frame struts. 11 . The prosthetic valve of claim 1 , wherein the prosthetic valve is configured for implantation in a native mitral valve, and wherein an entire length of the one of the tissue anchoring legs is configured to extend radially outward and toward an atrium upon implantation. 12 . An expandable prosthetic valve for implantation within a native heart valve, the prosthetic valve comprising: an expandable outer frame comprising: a plurality of outer frame struts intersecting at junctions of the outer frame struts to form closed cells; and a plurality of downstream tissue anchoring legs configured to extend radially outward from the junctions of the outer frame struts; an inner frame situated at least partially within the outer frame, the inner frame comprising: a plurality of inner frame struts intersecting at junctions of the inner frame struts to form closed cells; and a plurality of upstream tissue anchoring arms configured to extend radially outward from the junctions of the inner frame struts; and a connector pin that (a) is at an intersection of one of the downstream tissue anchoring legs and two outer frame struts that are adjacent to the one of the tissue anchoring legs, and (b) connects the inner frame to the outer frame. 13 . The prosthetic valve of claim 12 , wherein the plurality of upstream tissue anchoring arms are rotationally offset with respect to the plurality of downstream tissue anchoring legs. 14 . The prosthetic valve of claim 12 , wherein the plurality of upstream tissue anchoring arms are configured to extend radially outward beyond terminal ends of the plurality of downstream tissue anchoring legs. 15 . The prosthetic valve of claim 12 , wherein at least one connection between the outer frame and the inner frame is positioned downstream from respective upstream ends of the outer frame and inner frame. 16 . The prosthetic valve of claim 12 , wherein at least one connection between the outer frame and the inner frame is positioned in a downstream direction relative to at least one upstream tissue anchoring arm and to at least one downstream tissue anchoring leg. 17 . An expandable prosthetic valve for implantation within a native heart valve, the prosthetic valve comprising: an expandable valve body comprising: an outer frame comprising a plurality of outer frame struts intersecting at junctions of the outer frame struts, the outer frame comprises pairs of first and second struts; and an inner frame situated at least partially within the outer frame and comprising a plurality of inner frame struts intersecting at junctions of the inner frame struts; a plurality of tissue anchoring legs, each tissue anchoring leg extending from a junction of the outer frame struts; and a connector pin that (a) is at an intersection of one of the tissue anchoring legs and two outer frame struts that are adjacent to the one of the tissue anchoring legs, and (b) connects the inner frame to the outer frame. 18 . The prosthetic valve of claim 17 , wherein the at least one tissue anchoring leg is shaped to define an opening therein. 19 . The prosthetic valve of claim 17 , wherein the at least one tissue anchoring leg includes at least one bent portion. 20 . The prosthetic valve of claim 17 , wherein for each pair of first and second struts of the outer frame: the first strut extends from a junction of the first strut and a given tissue anchoring leg, the second strut extends from a junction of the second strut and a tissue anchoring leg adjacent to the given tissue anchoring leg, the first and second struts meet at a single first-and-second-strut junction between the first and second struts that is upstream of (1) the junction of the first strut and the given tissue anchoring leg and (2) the junction of the second strut and the tissue anchoring leg adjacent to the given tissue anchoring leg