Axial flow rotor with downstream bearing wash flow

What is claimed is: 1. An impeller for a blood pump, comprising: a body having a bottom surface at a downstream end of the body and a central opening extending at least partially through the body from the bottom surface, the central opening centered about a rotational axis of the body, the rotational axis defining an axial direction, the body configured to rotate about an element projecting from a surface below the bottom surface into the opening to drive a primary blood flow along an exterior of the body to beyond a peripheral edge of the bottom surface, the body supported in the axial direction above a bearing surface interposed between the body and the projecting element, and the body configured to drive a secondary blood flow through the opening toward the bottom surface and then outwardly along the bottom surface to beyond the peripheral edge, the bottom surface undulates in a direction of a circumference of the bottom surface between each of at least one trough and at least one respective elevation, the at least one trough and a least one elevation of the bottom surface configured to drive the secondary flow of the fluid towards the peripheral edge of the bottom surface, and the body is configured for magnetic interaction between the body and an external magnetic field in a state of rotation of the body. 2. The impeller of claim 1 , wherein the undulations of the body define a plurality of ridges protruding in an axial direction below portions of the bottom surface, the ridges defining a plurality of fluid channels for driving the secondary flow between the opening and the peripheral edge. 3. The impeller of claim 2 , wherein the ridges are blades elongated in a direction from the opening towards the peripheral edge. 4. The impeller of claim 3 , wherein the fluid channels have arcuate shape. 5. The impeller of claim 3 , wherein the ridges have straight walls defining the plurality of fluid channels. 6. The impeller of claim 5 , wherein the ridges taper in a direction from the peripheral edge towards the opening. 7. The impeller of claim 6 , wherein the walls of each fluid channel are parallel. 8. The impeller of claim 7 , wherein each fluid channel extends in a radial direction from the opening to the peripheral edge. 9. The impeller of claim 1 , wherein the bearing surface is configured to cooperate with a mating bearing surface associated with the projecting element. 10. The impeller of claim 9 , wherein the bearing surface is disposed adjacent the upstream end of the central opening, wherein the impeller is configured to drive the secondary flow to an area proximate the bearing surface to provide washing of the bearing surface. 11. The impeller of claim 10 , wherein the central opening extends through the body to an upstream entrance, and the impeller includes a hub aligned with the axis and the opening, the hub supporting the impeller atop the bearing surface. 12. The impeller of claim 1 , wherein the impeller includes blades projecting from the exterior of the body for driving the primary flow. 13. An implantable blood pump, comprising: an impeller body having a bottom surface at a downstream end of the body and a central opening extending at least partially through the body from the bottom surface, the central opening centered about a rotational axis of the body, the rotational axis defining an axial direction; the body being configured to rotate about an element projecting from below the bottom surface into the opening to drive a primary downstream blood flow along an exterior of the body to beyond a peripheral edge of the bottom surface and axially downstream from the impeller, the body supported in the axial direction above a bearing surface interposed between the body and the projecting element, the body configured to drive a secondary downstream blood flow through the opening toward the bottom surface and then outwardly along the bottom surface to beyond the peripheral edge, the bottom surface include a plurality of axially protruding ridges defining a plurality of fluid channels, the plurality of axially protruding ridges being configured to drive the secondary downstream blood flow from the opening towards the peripheral edge; the pump being configured to rotate the body about the axis and to drive the blood in a generally axial direction downstream from the impeller; and the body is configured for magnetic interaction between the body and an external magnetic field in a state of rotation of the body. 14. The pump of claim 13 , wherein each one of the plurality of axially protruding ridges is a blade elongated in a direction from the opening towards the peripheral edge, and the plurality of fluid channels have an arcuate shape. 15. The pump of claim 13 , wherein each one of the plurality of axially protruding ridges has straight walls defining the at least one fluid channel, the straight walls extending in a radial direction from the opening to the peripheral edge. 16. The pump of claim 13 , wherein the bearing surface is configured to cooperate with a mating bearing surface associated with the projecting element. 17. The pump of claim 13 , wherein the central opening extends through the body to an upstream entrance, and the impeller includes a hub aligned with the axis and the opening, the hub supporting the impeller atop the bearing surface. 18. The pump of claim 13 , wherein the impeller comprises blades projecting from the exterior of the body for driving the primary flow. 19. The pump of claim 13 , wherein the magnetic field is an external rotating magnetic field below the bottom surface, and the body comprises a plurality of magnetic poles proximate the bottom surface, the body being configured to be rotationally driven by and the axial position of the body being secured by the rotating magnetic field.