Modular implantable ventricular assist device

What is claimed is: 1. An implantable left ventricular assist pump device assembly, comprising: a frame having an expanded configuration and a collapsed configuration, wherein the frame, in the expanded configuration, is configured to engage tissue of a patient when implanted; and a pump assembly having one or more components configured to operably couple to the frame when the frame is implanted and in the expanded configuration, wherein the frame, when implanted and in the expanded configuration, is configured to couple to the one or more components of the pump assembly when the one or more components are advanced into the frame, and wherein the one or more pump components of the pump assembly are not coupled to the frame when the frame is in the collapsed configuration. 2. An implantable left ventricular assist pump device assembly according to claim 1 , wherein the frame is configured to be delivered via an intravascular catheter in the collapsed configuration. 3. An implantable left ventricular assist pump device assembly according to claim 1 , wherein the frame is configured to securely engage an inner wall of an aorta when implanted and in the expanded configuration. 4. An implantable left ventricular assist pump device assembly according to claim 1 , further comprising a heart valve attached to the frame. 5. An implantable left ventricular assist pump device assembly according to claim 1 , wherein the pump assembly comprises a shaft and an impeller rotatable about the shaft, wherein the shaft is connected to the frame. 6. An implantable left ventricular assist pump device assembly according to claim 5 , wherein the pump assembly further comprises a housing having a first part and a second part; wherein the first part and the second part of the housing are configured to sealingly engage each other and the shaft. 7. An implantable left ventricular assist pump device assembly according to claim 6 , wherein the first part of the housing is configured to be delivered via an intravascular catheter and the second part of the housing is configured to be delivered via an intravascular catheter. 8. An implantable left ventricular assist pump device assembly according to claim 1 , wherein the pump assembly comprises a plurality of micropumps. 9. An implantable left ventricular assist pump device assembly, comprising: a frame having an expanded configuration and a collapsed configuration, wherein the frame, in the expanded configuration, is configured to engage tissue of a patient when implanted; and a pump assembly having one or more components configured to operably couple to the frame when the frame is implanted and in the expanded configuration, wherein the pump assembly comprises a plurality of micropumps. 10. An implantable left ventricular assist pump device assembly according to claim 9 , wherein one or more of the plurality of micropumps are configured to attach to the frame in the expanded configuration. 11. An implantable left ventricular assist pump device assembly according to claim 9 , wherein at least one of the plurality of micropumps is configured to attach to at least one other of the plurality of micropumps. 12. An implantable left ventricular assist pump device assembly according to claim 9 , wherein the frame in the expanded configuration comprises a lumen extending the length of the frame and wherein the plurality of micropumps are disposed so as to occupy a substantial area of at least one cross section of the frame normal to the longitudinal axis of the frame. 13. An implantable left ventricular assist pump device assembly according to claim 9 , wherein the frame in the expanded configuration has a circumference and wherein the plurality of micropumps are disposed in proximity to the circumference of the frame. 14. A method comprising: implanting a frame in a vessel of a patient, the frame having a structural scaffold configured to engage the vessel and a lumen defined therethrough; advancing one or more components of a pump assembly through the vessel from a location away from the implanted frame into the lumen of the frame; and operably coupling the one or more components of a pump assembly to the implanted frame. 15. The method of claim 14 , wherein a shaft of the pump assembly is connected to the frame and disposed in the lumen of the frame prior to implanting the frame, and wherein operably coupling the one or more components of the pump assembly to the frame comprises sealingly engaging first and second housing components around the shaft. 16. The method of claim 14 , wherein operably coupling the one or more components of the pump assembly to the frame comprises operably coupling one or more micropumps to the frame. 17. A method comprising: deploying a frame in in a vessel of a patient, wherein the frame engages the vessel when deployed; advancing one or more components of a pump assembly through the vessel from a location away from the implanted frame into the frame; and operably coupling the one or more components of a pump assembly to the deployed frame, such that the pump assembly is configured to pump fluid through the frame along a longitudinal axis of the frame. 18. The method of claim 17 , further comprising advancing the one or more components of the pump assembly through the patient's vasculature prior to operably coupling the one or more components to the frame. 19. The method of claim 17 , wherein advancing the frame or the one or more components of the pump assembly through the patients vasculature comprises advancing the frame or one or more components of the pump assembly a distance of greater than 50 cm.