System and method for air detection in fluid injector

We claim: 1 . A method for detecting air in at least a portion of a fluid path of a fluid injector system, the method comprising: determining a baseline value comprising baseline compressibility data for the at least a portion of the fluid path of the fluid injector system, the at least a portion of the fluid path having at least one fluid portal, wherein the at least a portion of the fluid path is substantially filled with a first amount of a medical fluid and a known volume of air; delivering the first amount of the medical fluid from at least the portion of a fluid path; refilling the at least a portion of the fluid path with a second amount of the medical fluid; performing an air check pressurization sequence comprising pressurizing the medical fluid in the at least a portion of the fluid path and gathering air check compressibility data; and comparing the air check compressibility data with the baseline compressibility data to determine a volume of air present in the at least a portion of the fluid path, further comprising incorporating a compensation factor when comparing the air check compressibility data with the baseline compressibility data to account for variations in at least one of deflection of one or more fluid injector system components, different volumes of the medical fluid compared to the volume of the first amount of the medical fluid used for determining the baseline compressibility data, and different pressure of the fluid in the at least a portion of the fluid path compared to a pressure of the fluid when determining the baseline compressibility data. 2 . The method of claim 1 , wherein determining the baseline value comprises accounting for a deflection of the fluid injection system, compliance of the at least a portion of the fluid path, and a compressibility of the known volume of air. 3 . The method of claim 1 , further comprising purging the known volume of air from the at least at least a portion of the fluid path prior to determining the baseline value. 4 . The method of any of claim 1 , further comprising delivering a prime volume of the second amount of the medical fluid from the at least a portion of the fluid path, wherein the prime volume of the second amount of the medical fluid has a volume greater than the volume of the air present in the at least a portion of the fluid path. 5 . The method of claim 4 , wherein delivering the prime volume of the second amount of the medical fluid further comprises optimizing the prime volume to equal to a minimum volume of the second amount of the medical fluid necessary to remove the volume of the air present in the at least a portion of the fluid path. 6 . The method of claim 1 , further comprising determining whether a fault condition exists when the volume of air present in the at least a portion of the fluid path exceeds a predetermined volume value. 7 . The method of claim 1 , further comprising closing a fluid path associated with the at least one fluid portal of the at least a portion of the fluid path prior to at least one of determining the baseline value and performing the air check pressurization sequence. 8 . The method of claim 1 , wherein the second amount of the medical fluid is different than the first amount of the medical fluid. 9 . An injector system for delivering a medical fluid, comprising: at least one fluid path of the injector system configured to contain the medical fluid; and at least one processor programmed or configured to: based on an air check protocol for detecting air in the at least a portion of the fluid path, determine a baseline value comprising baseline compressibility data for at least one fluid path of the injector system, wherein the at least one fluid path is substantially filled with a first amount of the medical fluid having a known volume of air; deliver the first amount of the medical fluid from the at least a portion of the fluid path; refill the at least a portion of the fluid path with a second amount of the medical fluid; based on the air check protocol, perform an air check pressurization sequence by gathering air check compressibility data for the at least a portion of the fluid path of the injector system; and based on the air check protocol, compare the air check compressibility data with the baseline compressibility data to determine a volume of air present in the at least a portion of the fluid path. 10 . The injector system of claim 9 , wherein the baseline value is determined to account for a deflection of one or more components of the injector system and compliance of the at least a portion of the fluid path and known volume of air. 11 . The injector system of claim 9 , wherein the processor is further programmed or configured to, based on the air check protocol, purge any air in the first amount of the medical fluid from the at least a portion of the fluid path before determining the baseline value. 12 . The injector system of claim 9 , wherein the processor is further programmed or configured to, based on the air check protocol, incorporate a correction factor when comparing the air check compressibility data with the baseline compressibility data to account for variations in at least one of deflection of one or more injector system components, different volumes of the medical fluid compared to the volume of the first amount of the medical fluid for the baseline compressibility data, and different positions of the piston compared to a position of the piston for the baseline compressibility data. 13 . The injector system of claim 9 , wherein the processor is further programmed or configured to, based on the air check protocol, deliver a prime volume of the second amount of the medical fluid from the at least a portion of the fluid path, wherein the prime volume of the second amount of the medical fluid has a volume greater than the volume of air present in the at least a portion of the fluid path. 14 . The injector system of claim 13 , wherein the step where the processor is further programmed or configured to deliver the prime volume of the second amount of the medical fluid further comprises optimizing the prime volume equal to a minimum volume of the second amount of the medical fluid necessary to remove the volume of air present in the at least a portion of the fluid path. 15 . The injector system of claim 9 , wherein the processor is further programmed or configured to, based on the air check protocol, determine whether the volume of air present in the at least a portion of the fluid path exceeds a predetermined volume value. 16 . The injector system of claim 15 , wherein, in the event the volume of air in the at least a portion of the fluid path exceeds the predetermined volume value, the processor is further programmed or configured to, based on the air check protocol, purge the volume of air from the at least a portion of the fluid path before the second amount of the medical fluid is delivered from the at least a portion of the fluid path or determine whether a fault condition exists. 17 . The injector system of claim 16 , wherein, after the volume of air has been purged from the at least a portion of the fluid path, the processor is further programmed or configured to, based on the air check protocol, perform an additional air check pressurization sequence by gathering additional air check compressibility data from the at least a portion of the fluid path, and compare the additional air check compressibility data with the baseline compressibility data to determine whether any air remains in the at least a