Reducing centrifugal pump bearing wear through dynamic magnetic coupling

What is claimed is: 1. A blood pump comprising: a pump impeller positioned within a pump impeller housing and comprising a pump impeller magnet; an upper bearing and a lower bearing positioned within the pump impeller housing, wherein the pump impeller is positioned between the upper bearing and the lower bearing; a drive motor movably positioned within a pump drive housing, the drive motor movably positioned along a threaded interface and coupled to a pump drive magnet, wherein the pump impeller housing is coupled to the pump drive housing, wherein varying a position of the drive motor relative to the pump impeller housing varies a position of the pump drive magnet relative to the pump impeller magnet; and a drive motor housing coupled to the drive motor and rotatably positioned within the pump drive housing, wherein rotating the drive motor housing relative to the pump drive housing axially displaces the drive motor relative to the pump drive housing. 2. The blood pump of claim 1 , wherein the position of the pump drive magnet relative to the pump impeller magnet can be varied such that a magnetic attraction force between the pump impeller magnet and the pump drive magnet is approximately equal and opposite an impeller lift force caused by an actuation of the pump impeller. 3. The blood pump of claim 2 , wherein when the magnetic attraction force and the impeller lift force are approximately equal and opposite, an axial force on each of the upper bearing and the lower bearing is minimized. 4. The blood pump of claim 1 , wherein varying a position of the drive motor relative to the pump drive housing comprises actuating a stepper motor coupled to the drive motor. 5. The blood pump of claim 4 , wherein the stepper motor and the drive motor share a common rotation central axis. 6. The blood pump of claim 4 , wherein the stepper motor and the pump drive magnet are completely contained within the pump drive housing. 7. The blood pump of claim 4 , wherein actuating the stepper motor comprises controlling the stepper motor via a system controller. 8. The blood pump of claim 7 , wherein controlling the stepper motor via the system controller comprises: transmitting a drive motor speed to the system controller; determining a stepper motor position based upon the drive motor speed; and actuating the stepper motor to move the drive motor relative to the pump drive housing. 9. The blood pump of claim 4 , wherein actuating the stepper motor comprises actuating the stepper motor via telemetry. 10. The blood pump of claim 4 , wherein the pump drive housing defines a chamber within which the drive motor is received, wherein the stepper motor is threadably coupled to the drive motor and is configured to axially displace the drive motor relative to the pump drive housing. 11. The blood pump of claim 1 , further comprising a stepper motor coupled to the drive motor housing, wherein actuating the stepper motor rotates the drive motor housing relative to the pump drive housing. 12. The blood pump of claim 11 , further comprising a drive motor carrier coupled to the drive motor and threadably coupled to the drive motor housing, wherein rotating the drive motor housing relative to the pump drive housing axially displaces the drive motor carrier relative to the pump drive housing. 13. The blood pump of claim 1 , wherein the pump drive magnet is axially movable relative to the pump impeller magnet and the pump impeller magnet is axially fixed relative to the pump drive housing. 14. The blood pump of claim 1 , wherein the drive motor housing includes a proximal end and a distal end and wherein the drive motor is configured to move toward or away from the distal end. 15. A blood pump comprising: a pump impeller positioned within a pump impeller housing and comprising a pump impeller magnet; an upper bearing and a lower bearing positioned within the pump impeller housing, wherein the pump impeller is positioned between the upper bearing and the lower bearing; and a drive motor movably positioned within a pump drive housing and coupled to a pump drive magnet, wherein the pump impeller housing is coupled to the pump drive housing, wherein varying a position of the drive motor relative to the pump impeller housing varies a position of the pump drive magnet relative to the pump impeller magnet, wherein varying a position of the drive motor relative to the pump drive housing comprises actuating a stepper motor coupled to the drive motor, and further wherein the stepper motor and the drive motor share a common rotation central axis. 16. A blood pump comprising: a pump impeller positioned within a pump impeller housing and comprising a pump impeller magnet; an upper bearing and a lower bearing positioned within the pump impeller housing, wherein the pump impeller is positioned between the upper bearing and the lower bearing; a drive motor movably positioned within a pump drive housing and coupled to a pump drive magnet, wherein the pump impeller housing is coupled to the pump drive housing, wherein varying a position of the drive motor relative to the pump impeller housing varies a position of the pump drive magnet relative to the pump impeller magnet; and a drive motor housing coupled to the drive motor and rotatably positioned within the pump drive housing, wherein rotating the drive motor housing relative to the pump drive housing axially displaces the drive motor relative to the pump drive housing.