Fluid paths for angiography injector assembly

1 . A fluid injector system comprising: at least one syringe configured for injecting medical fluid; a fluid path assembly in fluid communication with the at least one syringe, the fluid path assembly comprising at least one air detection region; an air detector configured to detect one or more air bubbles in a fluid path associated with the air detection region; at least one shutoff valve at a distal end of the fluid path assembly; and at least one processor programmed or configured to actuate the at least one shutoff valve in response to the air detector detecting the one or more air bubbles in the fluid path associated with the air detection region to prevent fluid flow out of the fluid path assembly, wherein the fluid path assembly has a length greater than a distance that an air bubble can travel or expand during an actuation time of the at least one shutoff valve. 2 . The fluid injector system of claim 1 , wherein the actuation time of the at least one shutoff valve is a time interval between a time at which the air bubble is detected in the air detection region and a time at which the at least one shutoff valve reaches a stop position. 3 . The fluid injector system of claim 1 , wherein the fluid path assembly comprises a fluid path length having a path length of between approximately 1000 millimeters and approximately 1400 millimeters. 4 . The fluid injector system of claim 1 , further comprising a fluid path tubing element comprising a plurality of tubes arranged in a zig-zag configuration and connected to one another in series. 5 . The fluid injector system of claim 4 , wherein the plurality of tubes are parallel to one another. 6 . The fluid injector system of claim 5 , wherein the plurality of tubes are connected to one another by a plurality of associated u-turn elements. 7 . The fluid injector system of claim 6 , wherein each of the plurality of associated u-turn elements defines a 180° turn to divert fluid flow from one of the plurality of tubes to another of the plurality of tubes. 8 . The fluid injector system of claim 6 , wherein the plurality of u-turn elements are formed in a pair of end caps, and wherein the pair of end caps are joined to open ends of the plurality of tubes to form a fluid path between an inlet port and an outlet port 9 . The fluid injector system of claim 8 , wherein the air detection region is associated with the inlet port of the fluid path tubing element. 10 . (canceled) 11 . (canceled) 12 . The fluid injector system of claim 1 , wherein the fluid path tubing element comprises a housing having a plurality of baffles to disrupt laminar flow of fluid though the housing. 13 . The fluid injector system of claim 12 , wherein the housing comprises a widened portion having an increased cross-sectional are configured to create a fluid pressure drop within the widened portion. 14 . The fluid injector system of claim 12 , wherein the plurality of baffles extend across a centerline of the housing such that fluid is forced to flow around the plurality of baffles. 15 . The fluid injector system of claim 12 , wherein the plurality of baffles comprises: at least one baffle extending from a first inner surface into a fluid path of the housing; and at least one baffle extending from a second inner surface into the fluid path of the housing and opposite of the first inner surface, wherein the at least one baffle extending from the second inner surface of the housing is offset in a longitudinal direction from the at least one baffle extending from the first inner surface of the housing. 16 . (canceled) 17 . The fluid injector system of claim 1 , wherein the fluid path tubing element is movable between a priming position and an injection position, wherein, in the priming position, an outlet of the fluid path tubing element is oriented substantially upward such that air bubbles within the fluid path flow towards the outlet due, at least in part, to buoyancy, and wherein, in the injection position, the outlet of the fluid path tubing element is oriented downward such that air bubbles within the fluid path flow away from the outlet due, at least in part, to buoyancy. 18 . (canceled) 19 . A fluid path tubing element for a fluid injector system, the fluid path tubing element comprising: an inlet port configured for fluid communication with at least one syringe; an outlet port configured for fluid communication with a valve; a tubing portion having a plurality of individual parallel tubes; and a plurality of u-turn elements connecting the plurality of individual parallel tubes in series in a zig-zag configuration. 20 . The fluid injector system of claim 19 , wherein each of the plurality of associated u-turn elements defines a 180° turn to divert fluid flow from one of the plurality of tubes to another of the plurality of tubes. 21 . The fluid path tubing element of claim 20 , wherein the plurality of u-turn elements are formed in a pair of end caps, and wherein the pair of end caps are joined to open ends of the plurality of individual parallel tubes of the tubing portion to form a fluid path between the inlet port and the outlet port. 22 . The fluid path tubing element of claim 19 , wherein the total length of the fluid path tubing element is greater than a distance that an air bubble can travel or expand during an actuation time of the valve. 23 . The fluid path tubing element of claim 19 , wherein the inlet port comprises an air detection region configured for operative communication with an air detector configured to detect one or more air bubbles in the air detection region. 24 . The fluid path tubing element of claim 19 , wherein a total fluid path length of the fluid path tubing element is between approximately 1000 millimeters and approximately 1400 millimeters. 25 - 31 . (canceled)