Percutaneous heart valve

What is claimed is: 1 . A method of deploying a percutaneous heart valve into a body cavity having an opening surrounded by surrounding body tissue, the method comprising: delivering a percutaneous heart valve to the body cavity in a collapsed configuration, the percutaneous heart valve comprising: an expandable frame comprising a proximal end and a distal end and a longitudinal axis extending therethrough, the expandable frame comprising a plurality of cells configured to permit the frame to radially expand and collapse between the collapsed configuration and an expanded configuration; a valve seated inside the expandable frame; a proximal anchoring portion; and a distal anchoring portion comprising a plurality of distal anchors; and radially expanding the expandable frame to the expanded configuration within the opening, wherein, when the prosthetic heart valve is in the expanded configuration: the proximal anchoring portion extends at least partially distally; at least a portion of each distal anchor extends proximally to a proximalmost portion of the distal anchor positioned radially outward from the frame, the proximalmost portions extending in a direction that is more parallel with the longitudinal axis than with a transverse axis perpendicular to the longitudinal axis; at least one of the plurality of distal anchors bends radially outwardly before bending to extend toward the proximal anchoring portion; and the proximalmost portions of the plurality of distal anchors are spaced apart by less than two cell lengths from a distalmost portion of the proximal anchoring portion; wherein radially expanding the expandable frame draws the proximal anchoring portion and the plurality of distal anchors closer together with the surrounding body tissue positioned between the proximal anchoring portion and the plurality of distal anchors. 2 . The method of claim 1 , wherein: when the frame is in the expanded configuration within the opening, the proximal anchoring portion is positioned on a first side of the surrounding body tissue and the distal anchors are positioned on a second side of the surrounding body tissue opposite the first side; and upon movement of the frame within the opening in a proximal direction, the distal anchors longitudinally engage the second side of the surrounding body tissue with a proximally-facing surface of the proximalmost portions of the distal anchors which are positioned radially outward from the frame. 3 . The method of claim 1 , wherein, when the frame is in the expanded configuration within the opening: the proximal anchoring portion is positioned on a first side of the surrounding body tissue and the distal anchors are positioned on a second side of the surrounding body tissue opposite the first side; and the proximalmost portions of the distal anchors engage the second side of the surrounding body tissue at a location radially outward of the opening. 4 . The method of claim 1 , wherein the proximal anchoring portion comprises a plurality of circumferentially spaced anchoring tips positioned radially outward from the frame when the frame is in the expanded configuration. 5 . The method of claim 4 , wherein when the frame is in the expanded configuration within the opening, the plurality of circumferentially spaced anchoring tips of the proximal anchoring portion extend at least partially distally toward the first side of the surrounding body tissue. 6 . The method of claim 1 , further comprising forming the cells, the proximal anchoring portion, and the distal anchoring portion by laser cutting. 7 . The method of claim 1 , wherein each of the plurality of distal anchors are connected to distal ends of cells of the frame. 8 . The method of claim 7 , wherein, when the frame is in the expanded configuration, the distal ends of each cell to which the distal anchors are attached are in a position spaced radially outward relative to a portion of the frame located proximal to the distal ends of each cell to which the distal anchors are attached. 9 . The method of claim 7 , wherein, when the frame is in the expanded configuration, the plurality of distal anchors bend radially outwardly to a position spaced radially outward relative to a portion of the frame located proximal to the distal ends of the cells to which the distal anchors are attached, the at least one distal anchor being attached to the distal end of the cell, at least a portion of the at least one distal anchor extending generally parallel to the longitudinal axis. 10 . The method of claim 1 , wherein a distalmost portion of the proximal anchoring portion and the proximalmost portions of the plurality of distal anchors are sized to pinch first and second sides of the surrounding body tissue together after the radially expanding. 11 . The method of claim 1 , wherein the body cavity comprises a native aortic valve. 12 . A method of deploying a percutaneous heart valve within a body cavity having an opening surrounded by surrounding body tissue, the method comprising: delivering a percutaneous heart valve to the body cavity in a collapsed configuration, the percutaneous heart valve comprising: an expandable frame comprising a proximal end and a distal end and a longitudinal axis extending therethrough, the expandable frame comprising a plurality of cells configured to permit the frame to radially expand and collapse for deployment within the opening of the body cavity between the collapsed configuration and an expanded configuration; a valve seated inside the expandable frame; a proximal anchoring portion; and a distal anchoring portion comprising a plurality of distal anchors, each distal anchor comprising an attached end connected to the frame, a free end, and a bend between the attached end and the free end; and radially expanding the expandable frame to the expanded configuration within the opening, wherein, when the prosthetic heart valve is in the expanded configuration: the proximal anchoring portion extends at least partially distally; at least a portion of each distal anchor extends proximally to a proximalmost portion of the distal anchor positioned radially outward from the frame, the proximalmost portions extending in a direction that is more parallel with the longitudinal axis than with a transverse axis perpendicular to the longitudinal axis; and the proximalmost portions of the distal anchors are spaced apart by less than two cell lengths from a distalmost portion of the proximal anchoring portion; wherein the radially expanding the expandable frame draws the proximal anchoring portion and the distal anchors closer together with the surrounding body tissue positioned between the proximal anchoring portion and the plurality of distal anchors. 13 . The method of claim 12 , wherein, when the frame is in the expanded configuration, at least a portion of the distal anchors between the attached end and the bend extends radially outward. 14 . The method of claim 13 , wherein, when the frame is in the expanded configuration, the bend orients a portion of the distal anchor immediately after the bend in a direction more parallel with the longitudinal axis than a portion of the distal anchor immediately before the bend. 15 . The method of claim 12 , wherein: when the frame is in an expanded configuration within the opening, the proximal anchoring portion is positioned on a first side of the surrounding body tissue and the distal anchors are positioned on a second side of the surrounding body tissue opposite the first side; and upon movement of the frame within the opening