Device and method for increasing flow through the left atrial appendage

We claim: 1. A prosthetic conduit configured to be implanted into a cardiac structure, comprising: a radially collapsible and expandable tubular body defining a lumen, the tubular body including an inlet portion and an outlet portion, the inlet portion configured to be anchored in a pulmonary vein; wherein the prosthetic conduit has an elongate shape configured such that the outlet portion is spaced apart from an ostium of the pulmonary vein when the prosthetic conduit is implanted in the pulmonary vein, and wherein the tubular body, when expanded, is biased toward a curved shape such that the prosthetic conduit is adapted to direct a flow of blood from the pulmonary vein through the lumen of the prosthetic conduit and outwardly through the outlet portion in a direction toward a left atrial appendage when the prosthetic conduit is implanted in the pulmonary vein; and wherein the tubular body is configured such that the lumen of the prosthetic conduit remains in an open configuration throughout its length once implanted in the pulmonary vein. 2. The prosthetic conduit of claim 1 , wherein the outlet portion comprises a perforated structure for promoting turbulence in the flow of blood. 3. The prosthetic conduit of claim 1 , wherein the outlet portion comprises vanes shaped for directing the flow of blood into or toward the left atrial appendage. 4. The prosthetic conduit of claim 1 , wherein the inlet portion comprises a radially expandable frame configured to engage walls of the pulmonary vein when expanded. 5. The prosthetic conduit of claim 4 , wherein the outlet portion comprises a radially expandable frame. 6. The prosthetic conduit of claim 1 , further comprising a plurality of spaced apart annular hoops positioned along an entire length of the tubular body between the inlet portion and the outlet portion to maintain the tubular body in the open configuration throughout its entire length. 7. The prosthetic conduit of claim 6 , wherein at least one of the inlet portion, the outlet portion, and the plurality of annular hoops are covered by a covering. 8. The prosthetic conduit of claim 1 , further comprising a plurality of barbs disposed along an outer surface of the inlet portion for facilitating anchoring of the inlet portion within the pulmonary vein. 9. The prosthetic conduit of claim 1 , wherein a length of the prosthetic conduit is configured such that the outlet portion is disposed in the left atrial appendage when the prosthetic conduit is implanted, and the outlet portion comprises a flared outlet for restraining the outlet portion in an ostium of the left atrial appendage. 10. The prosthetic conduit of claim 9 , wherein the flared outlet does not occlude the entire ostium. 11. The prosthetic conduit of claim 1 , wherein the tubular body further comprises a plurality of supports positioned along an entire length of the tubular body between the inlet portion and the outlet portion to maintain the lumen of the tubular body in the open configuration throughout its entire length. 12. The prosthetic conduit of claim 11 , wherein the supports comprise stents or rings. 13. The prosthetic conduit of claim 1 , wherein the tubular body further comprises an intermediate portion between the inlet portion and the outlet portion, the intermediate portion being configured to form an elbow when the prosthetic conduit is expanded such that the inlet portion and the outlet portion are oriented at an angle to each other. 14. The prosthetic conduit of claim 13 , wherein the intermediate portion is configured such that the inlet portion and the outlet portion are oriented at a right angle to each other when the prosthetic conduit is expanded. 15. The prosthetic conduit of claim 13 , wherein the inlet portion, the outlet portion, and the intermediate portion are respective portions of a single frame or stent.