System and method of predicting CO2 breakthrough and absorbent replacement

What is claimed is: 1. A computerized method of predicting carbon dioxide (CO 2 ) breakthrough in an anesthesia ventilator, the method comprising: inputting into a computing system a minimum detectable inspired CO 2 concentration (FiCO 2 ) threshold and a CO 2 absorbent replacement threshold; inputting into the computing system a set of data received from the anesthesia ventilator, wherein the set of data includes a measured FiCO 2 ; determining whether the measured FiCO 2 exceeds the minimum detectable FiCO 2 threshold; extrapolating a number of breaths for the measured FiCO 2 to reach the CO 2 absorbent replacement threshold; and calculating a CO 2 absorbent replacement time with the number of breaths and a breaths interval time. 2. The method of claim 1 , further comprising the computing system outputting the CO2 absorbent replacement time to a user interface. 3. The method of claim 2 , wherein the CO 2 absorbent replacement time is outputted to a display. 4. The method of claim 2 , further comprising the computing system outputting a set of current ventilator parameter values and a set of fresh gas delivery parameter values. 5. The method of claim 2 , further comprising repeating the inputting into the computing system the set of data received from the anesthesia ventilator after outputting the CO 2 absorbent replacement time when an anesthesia case is not complete. 6. The method of claim 1 , wherein the set of data received from the anesthesia ventilator further includes an average patient expired gases (FeCO 2 ), a volume per breath of fresh gas (Vfg), and a tidal volume per breath (VT). 7. The method of claim 1 , further comprising updating a CO 2 depletion model and computing a set of constants that illustrate a measured FiCO 2 response after the measured FiCO 2 exceeds the minimum detectable FiCO 2 threshold. 8. The method of claim 1 , further comprising inputting at least one what-if ventilation parameter value wherein the what-if ventilation parameter value is different from the set of data from the anesthesia ventilator; and calculating an adjusted absorbent replacement time. 9. A non-transitory computer readable medium including instructions that, when executed on a computing system, cause the computing system to: receive from a user interface a minimum detectable inspired CO 2 concentration (FiCO 2 ) threshold and a CO 2 absorbent replacement threshold; receive a set of data from the anesthesia ventilator, wherein the set of data includes a measured FiCO 2 ; determine whether the measured FiCO 2 exceeds the minimum detectable FiCO 2 threshold; extrapolate a number of breaths for the measured FiCO 2 to reach the CO 2 absorbent replacement threshold; and calculate a CO 2 absorbent replacement time with the number of breaths and a breaths interval time. 10. The medium of claim 9 , further comprising the instructions causing the computing system to output the CO 2 absorbent replacement time to a user interface. 11. The medium of claim 10 , wherein the CO 2 absorbent replacement time is outputted to a display. 12. The medium of claim 10 , further comprising the instructions causing the computing system to output a set of current ventilator parameter values and a set of fresh gas delivery parameter values. 13. The medium of claim 10 , further comprising the instructions causing the computing system to repeat the step of receiving the set of data from the anesthesia ventilator after outputting the CO 2 absorbent replacement time when an anesthesia case is not complete. 14. The medium of claim 10 , wherein the set of data received from the anesthesia ventilator further includes an average patient expired gases (FeCO 2 ), a volume per breath of fresh gas (Vfg), and a tidal volume per breath (VT). 15. The medium of claim 10 , further comprising the instructions causing the computer system to update a CO 2 depletion model and compute a set of constants that illustrate a measured FiCO 2 response after the measured FiCO 2 exceeds the minimum detectable FiCO 2 threshold. 16. The medium of claim 9 , further comprising the instructions causing the computing system to: receive from a user at least one what-if ventilation parameter value wherein the what-if ventilation parameter value is different from the set of data from the anesthesia ventilator; and calculate an adjusted absorbent replacement time. 17. An anesthesia ventilator, comprising: a CO 2 canister containing CO 2 absorbent; a computing system including the storage device and a processor, the storage device including instructions that, when executed on the processor, cause the computing system to: receive from a user interface a minimum detectable inspired CO 2 concentration (FiCO 2 ) threshold and a CO 2 absorbent replacement threshold for the CO 2 absorbent; receive a set of data from the anesthesia ventilator, wherein the set of data includes a measured FiCO 2 ; determine whether the measured FiCO 2 exceeds the minimum detectable FiCO 2 threshold; extrapolate a number of breaths for the measured FiCO 2 to reach the CO 2 absorbent replacement threshold, wherein the extrapolation utilizes a set of predetermined parameters; and calculate a CO 2 absorbent replacement time with the number of breaths and a breaths interval time, and output the CO 2 absorbent replacement time to a user interface. 18. The anesthesia ventilator of claim 17 , further comprising the instructions causing the computer system to: receive from a user at least one what-if ventilation parameter value, wherein the what-if ventilation parameter value is different from the set of data from the anesthesia ventilator; and calculate an adjusted absorbent replacement time.