A system and method for auto-regulating therapeutic administration to a patient for achieving artificial homeostasis. The system includes a plurality of modules designed to create an automated therapeutic administration system. An auto-regulation module maintains a target vital level within a patient by comparing measured levels with stored target levels a delivery module delivers an amount of a therapeutic to a patient based on instructions from the auto-regulation module, and a sensor module measures patient levels and transmits the measurements to the auto-regulation unit. The auto-regulation module compares the measured levels with the stored target levels, and, based on the comparison, instructs the delivery module to alter the amount of therapeutic administered to the patient, in an effort to match the measured levels with the target levels, thereby creating a closed feedback loop designed to achieve an artificial homeostasis for a patient.
