System and method of controlling the delivery of medical gases to a patient

What is claimed is: 1. A system for controlling the delivery of medical gases during respiratory support of a patient, the system comprising: a breathing circuit including a patient connection adapted to deliver respiratory support to the patient; a mixer pneumatically connected to the breathing circuit, the mixer configured to provide at least oxygen and a balance gas to the breathing circuit; a mechanical ventilator pneumatically connected to the breathing circuit, the mechanical ventilator configured to create fluid pressure waveforms within the breathing circuit to provide respiratory support to the patient; a digital signal processor communicatively connected to the mixer and the mechanical ventilator, the digital signal processor receives at least one ventilation parameter value change, calculates a fresh oxygen flow rate into the breathing circuit and a total fresh gas flow rate into the breathing circuit with the at least one ventilation parameter value, and calculates a reference oxygen flow rate representative of a predetermined oxygen concentration delivered to the patient with at least the total fresh gas flow rate; and a graphical display communicatively connected to the digital signal processor, wherein the graphical display presents the calculated fresh oxygen flow rate, the total fresh gas flow rate, and the reference oxygen flow rate. 2. The system of claim 1 , wherein the predetermined oxygen concentration is established by a clinician. 3. The system of claim 1 , further comprising: a vaporizer pneumatically connected to the breathing circuit; wherein the digital signal processor calculates an anesthetic agent consumption rate at least in part from the total fresh gas flow rate, calculates an estimated cost from the anesthetic agent consumption rate, and operates the graphical display to present the estimated cost. 4. The system of claim 3 , wherein the digital signal processor calculates an anesthetic agent vapor flow rate in the total gas flow rate. 5. The system of claim 4 , wherein the digital signal processor converts the anesthetic agent vapor flow rate into an anesthetic liquid flow rate and uses the anesthetic agent liquid flow rate as the anesthetic agent consumption rate. 6. The system of claim 1 , wherein the graphical display presents the fresh oxygen flow rate and total fresh gas flow rate in a single graphical user interface, the single graphical user interface further presents the reference oxygen flow rate as a reference tab on the single graphical user interface. 7. The system of claim 1 , wherein the predetermined oxygen concentration is a predetermined hypoxic concentration threshold. 8. The system of claim 1 , further comprising: a respiratory gas monitor pneumatically connected to the breathing circuit, the respiratory gas monitor produces signals indicative of an oxygen concentration inhaled and exhaled by the patient. 9. The system of claim 8 , wherein the digital signal processor calculates the predetermined minimum oxygen requirement threshold using at least one of the signals indicative of oxygen concentration inhaled and exhaled by the patient. 10. The system of claim 8 , wherein respiratory gas monitor further produces signals indicative of an anesthetic agent vapor concentration inhaled and exhaled by the patient, wherein the digital signal processor uses the signals received from the respiratory gas monitor to calculate an estimated cost of consumed anesthetic agent. 11. A low-flow ventilation system provides repeating breaths of respiratory support to a patient, the system comprising: a breathing circuit including a patient connection adapted to deliver the respiratory support to the patient; an input device operable by a clinician to input at least one ventilation parameter value; a mixer pneumatically connected to the breathing circuit, the mixer configured to provide at least oxygen and a balance gas to the breathing circuit; a vaporizer pneumatically connected to the breathing circuit; a digital signal processor communicatively connected to the input device, the digital signal processor receives the at least one ventilation parameter value, calculates a fresh oxygen flow rate into the breathing circuit, calculates total fresh gas flow rate into the breathing circuit, calculates a predicted oxygen concentration delivered to the patient, and compares the predicted oxygen concentration to a predetermined minimum oxygen requirement threshold of the patient; a graphical display communicatively connected to the digital signal processor, the graphical display presents the calculated fresh oxygen flow rate and total fresh gas flow rate; wherein if the predicted oxygen concentration is above the predetermined minimum oxygen requirement threshold, the digital signal processor accepts the at least one ventilation parameter value. 12. The system of claim 11 , wherein if the predicted oxygen concentration delivered to the patient is below the predetermined minimum oxygen requirement threshold, the digital signal processor calculates at least one additional parameter value such that the predicted oxygen concentration is above the predetermined minimum oxygen requirement threshold, and the digital signal processor accepts the at least one ventilation parameter value and at least one additional parameter value. 13. The system of claim 11 , wherein the digital signal processor further calculates a reference oxygen flow rate required to achieve a delivery of a predetermined oxygen concentration to the patient and the graphical display presents a graphical indication of the calculated reference oxygen flow rate in relation to the calculated fresh oxygen flow rate. 14. The system of claim 13 , wherein the digital signal processor further calculates a predicted anesthetic vapor flow rate at least in part from the total fresh gas flow rate, the digital signal processor further converts the predicted anesthetic vapor flow rate to an anesthetic agent consumption cost and the graphical display presents the anesthetic agent consumption cost. 15. The system of claim 14 , further comprising: a respiratory gas monitor pneumatically connected to the breathing circuit, the respiratory gas monitor produces signals indicative of an anesthetic agent concentration inhaled and exhaled by the patient; wherein the digital signal processor calculates the anesthetic vapor flow rate from at least the indicated inhaled and exhaled anesthetic agent concentrations and the total fresh gas flow rate. 16. A method of controlling the delivery of medical gases to a patient receiving ventilatory support from a low-flow mechanical ventilator, the method comprising: providing ventilatory support to the patient through a breathing circuit pneumatically connected to a mechanical ventilator in a low-flow configuration; receiving, with a mixer pneumatically connected to the breathing circuit, a flow of medical gas comprising oxygen; receiving, with a digital signal processor, a ventilation parameter value change; calculating, with the digital signal processor, a total fresh gas flow rate into the breathing circuit from the received ventilation parameter value change; calculating, with the digital signal processor, a fresh oxygen flow rate into the breathing circuit from the received ventilation parameter value change; calculating, with the digital signal processor, a reference oxygen flow rate into the breathing circuit that achieves a predetermined oxygen concentration as delivered to the patient based upon the total fresh gas flow rate; and presenting the total fresh gas flow