Electrocardiogramagered piston pump

We claim: 1 . A biocompatible positive displacement pump comprising: a frame system, where a pump head system, a drive train, and an electronics system are removably attached; said pump head system comprises a pump casing wherein a feed line and a return line are connected to said pump casing with a mounting plate and wherein said feed line and said return line each comprise a check valve on one end and an adapter that interfaces with said mounting plate on the other; said drive train comprises a piston operationally connected to said feed line and said return line and an actuator; and said electronics system comprises a motion controller, capable of receiving an electrocardiogram (“ECG”) signal, that drives said actuator based on said ECG signal of a connected mammalian heart and an interface board that produces output signals; wherein said motion controller can be further configured to various fill-to-eject ratios, thereby enabling the filling of said pump head system to occur over one or more cardiac cycles. 2 . The pump of claim 1 , wherein said actuator comprises a linear stepper motor connected to a spring system that provides translating motion of said piston and at least one motion guide that prevents rotation of said drive train. 3 . The pump of claim 1 , wherein said electronics system comprises: (a) a microcontroller; (d) an interface board; (e) a sensor shield; (f) an ECG signal conditioning board; (g) a motion controller; (h) at least one limit switch; (i) an actuator; (j) a quadrature encoder; AND (k) at least one control dial; wherein said microcontroller is connected to said interface board, said sensor shield, said ECG signal conditioning board, and said motion controller; wherein said interface board provides at least one output signal from said microcontroller to at least one Bayonet Neill-Concelman (“BNC”) connector; wherein said sensor shield is connected to the at least one control dial, the at least one limit switch, and the quadrature encoder; wherein said ECG signal conditioning board connects to a ECG wiring harness; and wherein the pump is operated using said at least one control dial. 4 . The pump of claim 3 , wherein the output signal comprises one or more signals selected from a group comprising an ECG trigger pulse, a piston position voltage signal, and an ECG voltage signal. 5 . The pump of claim 3 , wherein said control dial comprises a continuously variable potentiometer. 6 . The pump of claim 3 , wherein said at least one limit switch actuates a pump mode or a fill ratio. 7 . The pump of claim 3 , wherein said microcontroller comprises an operating code that is programmed to operate the pump. 8 . The pump of claim 3 , wherein said microcontroller comprises an operating code that is programmed to operate the pump, and wherein said operating code is organized into at least two nested subsystems. 9 . The pump of claim 7 , wherein said operating code receives one or more inputs comprising values selected from a group comprising at least one global setting, at least one analog voltage, digital logic, and a serial communication. 10 . The pump of claim 7 , wherein said operating code comprises: (a) an ECG trigger subsystem; (b) a position encoder processing subsystem; (c) an operating controls subsystem; (d) an overwrite and error control subsystem; and (e) a readback processing subsystem. 11 . The pump of claim 7 , wherein said operating code is configured based on the pump head's geometry. 12 . The pump of claim 1 , wherein the pump is configured to deliver a fluidic agent into a hydraulic or pneumatic system based on timing of said hydraulic or pneumatic system's action.