Aortic connectors and methods of use

What is claimed is: 1. An anastomosis connector device for fluidly coupling a blood pump to an aorta of a patient, the connector device comprising: a tubular connector having an inlet opening, an outlet opening, and a blood flow channel extending from the inlet opening to the outlet opening; wherein the tubular connector has a proximal portion configured for fluidly coupling the inlet opening with an outflow graft tube of the blood pump, and wherein the outlet opening is configured for delivering blood flow into the aorta; an interface flange shaped to conform and/or is configured to conform to a wall of the aorta, wherein the interface flange extends from the outlet opening so as to provide a hemostatic seal between the aorta and the tubular connector when the interface flange is attached to the wall of the aorta, wherein the interface flange has an outer perimeter that can be attached to the aorta, and wherein the tubular connector extends from the interface flange in a direction so that a flow of blood through the blood flow channel is discharged into the aorta at a desired angle through the outlet opening; and one or more attachment features to facilitate secure fluid-sealed attachment of the connector device with the outflow graft tube and the aorta. 2. The connector device of claim 1 , wherein the blood flow channel extends linearly from the interface flange at a set angle. 3. The connector device of claim 2 , wherein the set angle is between 30 and 75 degrees from perpendicular. 4. The connector device of claim 2 , wherein the set angle is between 45 and 60 degrees from perpendicular. 5. A surgical kit comprising: connector devices, wherein each of the connector devices is configured according to claim 2 , and wherein the set angle of each of the connector devices differs from the other connector devices so as to accommodate a selection of one of the connector devices according to a desired application or anatomy of the patient. 6. The connector device of claim 1 , wherein the interface flange comprises a flexible graft material so as to be conformable with an outside surface of the wall of the aorta. 7. The connector device of claim 6 , wherein the flexible graft material is porous or textured so as to promote tissue in-growth with the wall of the aorta. 8. The connector device of claim 6 , wherein the one or more attachment features comprise a suture ring circumscribing the outlet opening to facilitate attachment of the interface flange to the wall of the aorta by one or more sutures. 9. The connector device of claim 6 , wherein the interface flange is configured to accommodate attachment of the interface flange to the wall of the aorta via one or more sutures placed so as to circumscribe the outlet opening to fluidly seal the interface flange with the wall of the aorta. 10. The connector device of claim 1 , wherein the interface flange is contoured so as to conform to the wall of the aorta. 11. The connector device of claim 1 , wherein the interface flange is configured to be interfaced with an inside surface of the wall of the aorta. 12. The connector device of claim 11 , wherein the interface flange comprises a material layer suitable for suturing with the wall of the aorta. 13. The connector device of claim 12 , wherein the material layer is porous or textured so as to promote tissue in-growth with the wall of the aorta. 14. The connector device of claim 11 , wherein the interface flange is rigid or semi-rigid. 15. The connector device of claim 14 , wherein the one or more attachment features comprise an interfacing ring that can be tightened or adjusted to capture the wall of the aorta between the interface flange and the interfacing ring. 16. The connector device of claim 11 , wherein the interface flange comprises a suture ring circumscribing the outlet opening to facilitate attachment of the interface flange to the wall of the aorta by one or more sutures. 17. The connector device of claim 1 , wherein the tubular connector is configured to facilitate suturing of the proximal portion with the outflow graft tube of the blood pump. 18. The connector device of claim 1 , wherein the tubular connector and the interface flange are parts of a single unitary component. 19. The connector device of claim 1 , wherein the one or more attachment features include: an outflow graft tube attachment feature configured to fluidly couple the proximal portion of the tubular connector to the outflow graft tube of the blood pump. 20. The connector device of claim 19 , wherein the outflow graft tube attachment feature comprises a pair of interfacing components to secure and fluidly couple the tubular connector to the outflow graft tube of the blood pump. 21. The connector device of claim 19 , wherein the outflow graft tube attachment feature comprises a flange and an interfacing ring. 22. The connector device of claim 19 , wherein the outflow graft tube attachment feature is configured to capture a circumferential reinforcing rib of the outflow graft tube. 23. The connector device of claim 1 , wherein the tubular connector and the interface flange are separate components coupled together. 24. The connector device of claim 23 , wherein the interface flange and the tubular connector comprise interfacing coupling features for coupling and sealing the tubular connector to the interface flange. 25. The connector device of claim 24 , wherein the interfacing coupling features comprise any of: a snap-fit coupling, an interference fit, twist-and-lock, a screw ring, or a capture ring. 26. The connector device of claim 24 , wherein the interface flange comprises a cuff circumscribing the outlet opening and the distal portion of the tubular connector comprises a flange configured to interface with the interface flange. 27. A surgical kit comprising: connector devices, wherein each of the connector devices is configured according to claim 1 , and wherein a diameter of the outlet opening of each of the connector devices differs from the other connector devices so as to accommodate a selection of one of the connector devices according to a desired application or anatomy of the patient. 28. The connector device of claim 1 , wherein the interface flange has a single continuous perimeter edge.