Enhanced performance verification port for therapeutic gas delivery

What is claimed is: 1. A therapeutic gas delivery system for confirming the proper functioning of gas delivery and injection module operation, comprising: an inlet port; a low pressure outlet port in fluid communication with the inlet port; an injection module operable to be received at the low pressure outlet port; a low pressure gas supply operable to provide a flow of breathing gas at the inlet port, wherein the flow of breathing gas is at a breathing gas flow rate; a low pressure delivery flow sensor and a low pressure confirmatory flow sensor operable to measure the breathing gas flow rate from the low pressure gas supply, wherein the low pressure delivery flow sensor and the low pressure confirmatory flow sensor are in fluid communication with the inlet port and the low pressure outlet port; an injector module having an injection module delivery flow sensor and an injection module confirmatory flow sensor operable to measure the breathing gas flow rate from the low pressure gas supply, wherein the injection module delivery flow sensor and the injection module confirmatory flow sensor are in fluid communication with the low pressure outlet port; and a controller operable to determine if one of the measured breathing gas flow rates differs from any one of the other measured breathing gas flow rates by greater than a threshold amount, wherein the flow rate is measured at two or more of the low pressure confirmatory flow sensor, the low pressure delivery flow sensor, the injection module confirmatory flow sensor, and/or the injection module delivery flow sensor. 2. The therapeutic gas delivery system of claim 1 , wherein the controller is further operable to provide an alarm if the breathing gas flow rates measured at the low pressure confirmatory flow sensor, the low pressure delivery flow sensor, the injection module confirmatory flow sensor, or the injection module delivery flow sensor differs from any one of the other measured breathing gas flow rates measured at the low pressure confirmatory flow sensor, the low pressure delivery flow sensor, the injection module confirmatory flow sensor, or the injection module delivery flow sensor by greater than a threshold amount. 3. The therapeutic gas delivery system of claim 1 , wherein the low pressure delivery flow sensor and the low pressure confirmatory flow sensor are arranged in series, and wherein the injection module delivery flow sensor and the injection module confirmatory flow sensor are arranged in series. 4. The therapeutic gas delivery system of claim 3 , wherein the injection module delivery flow sensor and the injection module confirmatory flow sensor are bi-directional flow sensors that are configured to determine the direction of gas flow through the injection module. 5. The therapeutic gas delivery system of claim 1 , wherein the low pressure gas supply comprises a wall supply and/or a pressurized cylinder configured to provide air, oxygen, or a combination thereof. 6. The therapeutic gas delivery system of claim 1 , which further comprises a therapeutic gas source operable to provide a stream of therapeutic gas to the flow of breathing gas upstream from an output of the injection module, wherein the stream of therapeutic gas and breathing gas combine to provide an intended concentration of therapeutic gas. 7. The therapeutic gas delivery system of claim 6 , which further comprises a sampling line down stream from the output of the injection module to sample at least a portion of the flow of gas exiting the injection module to a gas analyzer for measurement of at least the concentration of therapeutic gas, wherein the controller is further operable to: determine the concentration of therapeutic gas exiting the injection module; and compare the measured concentration of therapeutic gas with the intended concentration of therapeutic gas. 8. The therapeutic gas delivery system of claim 7 , which further comprises adjusting a subsystem flow control valve to provide a stream of therapeutic gas at an intended therapeutic gas flow rate; and determining if the subsystem flow control valve is properly functioning, wherein the subsystem flow control valve is in fluid communication with the low pressure outlet port. 9. The therapeutic gas delivery system of claim 8 , further comprising a flow regulating valve operable to switch to divert the stream of therapeutic gas to an alternative flow path, wherein: the injection module delivery flow sensor and the injection module confirmatory flow sensor measure the combined therapeutic gas flow rate and breathing gas flow rate; the flow regulating valve is up stream from and in fluid communication with the low pressure outlet port, and the subsystem flow control valve is upstream from and in fluid communication with the flow regulating valve; the injection module delivery flow sensor and the injection module confirmatory flow sensor measure the breathing gas flow rate; and the controller determines if the flow regulating valve functioned properly by determining if the combined therapeutic gas flow rate and breathing gas flow rate decreased by the therapeutic gas flow rate when the flow regulating valve was switched to the alternative flow path. 10. The therapeutic gas delivery system of claim 9 , which further comprises two or more subsystem flow sensors operable to measure a flow rate, wherein the two or more subsystem flow sensors are upstream from and in fluid communication with the flow regulating valve; and the controller compares the flow rates measured at each of the two or more subsystem flow sensors to determine if the two or more subsystem flow sensors are in agreement. 11. The therapeutic gas delivery system of claim 10 , wherein the controller further calculates therapeutic gas blending ratio from the measured flow rate measured by at least one of the two or more subsystem flow sensors and from the breathing gas flow rate measured by the low pressure delivery flow sensor; and compares the calculated therapeutic gas blending ratio to the measured concentration of therapeutic gas exiting the injection module. 12. The therapeutic gas delivery system of claim 10 , further comprising a subsystem flow control valve operable to be adjusted to be completely open to provide the stream of therapeutic gas at a maximum therapeutic gas flow rate. 13. A therapeutic gas delivery system comprising: a gas source coupling operable to mate to a therapeutic gas source; a gas delivery subsystem comprising one or more flow control channels having at least one shut off valve, at least one delivery flow sensor, and at least one confirmatory flow sensor; a shut off operable to open to deliver a flow of therapeutic gas from a gas supply subsystem to the gas delivery subsystem to purge the gas supply subsystem and the at least one of the one or more flow control channels; a connection valve and a shut off, wherein the gas supply subsystem is operable to be pressurized at least between the connection valve and the closed shut off to a pressure above atmospheric pressure; a gas pressure sensor operable to monitor the pressure between the connection valve and the closed shut off valve for a predetermined time period; and a controller operable to present an alarm if the pressure between the connection valve and the closed shut off valve decreases or increases more than an expected amount over the predetermined time period. 14. The therapeutic gas delivery system of claim 13 , further comprising a purge valve in fluid communication with the connection valve and between the closed shut off and the connection valve, operable to open to flush gas