Pressure/flow characteristic modification of a centrifugal pump in a ventricular assist device

What is claimed is: 1. A ventricular assist device, comprising: a centrifugal pump comprising a motor; and at least one processor configured to: determine a flow rate through the centrifugal pump based on a current of the motor; cause the motor to operate at a first speed when the flow rate is greater than a predetermined flow rate during a systolic phase, wherein the predetermined flow rate corresponds with a flow rate indicative of a crossover point between the systolic phase and a diastolic phase, wherein when the motor operates at the first speed, the motor is operating a variable current; and cause the motor to operate at a second speed when the flow rate is less than the predetermined flow rate during the diastolic phase, wherein when the motor operates at the second speed, the motor is operating at one or both of a constant current and a constant speed. 2. The ventricular assist device of claim 1 , wherein: pressure generated by the centrifugal pump is increased during a diastolic phase. 3. The ventricular assist device of claim 1 , wherein: the second speed is greater than the first speed. 4. The ventricular assist device of claim 1 , wherein: the predetermined flowrate is set by a clinician. 5. The ventricular assist device of claim 1 , further comprising: a flow measurement sensor, wherein the flow rate is determined based on a measurement from the flow measurement sensor. 6. The ventricular assist device of claim 1 , wherein: the at least one processor is further configured to: detect a suction event in the centrifugal pump; and reduce a speed of the centrifugal pump to alleviate the suction event. 7. A method of controlling a ventricular assist device, comprising: determining a flow rate through a centrifugal pump of the ventricular assist device based on a current of a motor of the centrifugal pump; causing a motor of the centrifugal pump to operate at a first speed when the flow rate is greater than a predetermined flow rate during a systolic phase, wherein the predetermined flow rate corresponds with a flow rate indicative of a crossover point between the systolic phase and a diastolic phase, wherein when the motor operates at the first speed, the motor is operating a variable current; and causing the motor to operate at a second speed when the flow rate is less than the predetermined flow rate during the diastolic phase, wherein when the motor operates at the second speed, the motor is operating at one or both of a constant current and a constant speed. 8. The method of controlling a ventricular assist device of claim 7 , wherein: the first speed is a minimum operating speed of the centrifugal pump. 9. The method of controlling a ventricular assist device of claim 7 , wherein: the first speed is input by a clinician. 10. The method of controlling a ventricular assist device of claim 7 , further comprising: detecting a suction event in the centrifugal pump; and reducing a speed of the centrifugal pump to alleviate the suction event. 11. The method of controlling a ventricular assist device of claim 7 , wherein: pressure generated by the centrifugal pump is increased during a diastolic phase. 12. A non-transitory machine readable medium having instructions stored thereon, wherein the instructions, when executed, cause at least one processor to perform operations comprising: determining a flow rate through a centrifugal pump of a ventricular assist device; causing a motor of the centrifugal pump to operate at a first speed when the flow rate is greater than a predetermined flow rate during a systolic phase, wherein the predetermined flow rate corresponds with a flow rate indicative of a crossover point between the systolic phase and a diastolic phase, wherein when the motor operates at the first speed, the motor is operating a variable current; causing the motor to operate at a second speed when the flow rate is less than the predetermined flow rate during the diastolic phase, wherein when the motor operates at the second speed, the motor is operating at one or both of a constant current and a constant speed; detecting a suction event in the centrifugal pump; and reducing a speed of the centrifugal pump to alleviate the suction event. 13. The non-transitory machine readable medium of claim 12 , wherein: the first speed is within 10% of a clinician set speed. 14. The non-transitory machine readable medium of claim 12 , wherein: the motor maintains one or more of a constant back electromotive force (emf), a constant left ventricular pressure, a constant pulmonic pressure, and a constant aortic pressure.