In-line air bubble suspension apparatus for angiography injector fluid paths

We claim: 1 . A fluid path assembly for a powered fluid injector system, the assembly comprising: at least one first fluid path comprising an air detection region configured to interact with at least one upstream air detector; at least one second fluid path having a shutoff valve at a distal end, wherein the shutoff valve comprises at least a first position providing fluid communication with a patient and at least a second position where fluid communication with the patient is prevented; and at least one bubble suspension apparatus intermediate of the at least one first fluid path and the at least one second fluid path, the bubble suspension apparatus comprising: a housing; an internal chamber having a curved, hemispherical interior wall defined within the housing, wherein the internal chamber is at least partly spherical or hemispherical; an inlet fluid pathway in fluid communication with the first fluid path and the internal chamber, the inlet fluid pathway extending into the internal chamber at a tangent to the curved, hemispherical interior wall; and an outlet fluid pathway in fluid communication with the internal chamber and the second fluid path, the outlet fluid pathway spaced from the inlet fluid pathway such that an injection fluid flowing into the internal chamber via the inlet fluid pathway is directed away from the outlet fluid pathway, wherein the internal chamber is configured to create an internal fluid vortex in the injection fluid entering the internal chamber from the inlet fluid pathway, and wherein the internal fluid vortex defines a circular fluid vortex flow path (B) along the curved, hemispherical interior wall, wherein the circular fluid vortex flow path (B) flows transversely across an opening of the outlet fluid pathway, and wherein the internal fluid vortex at least temporarily suspends the one or more air bubbles in a low pressure region in the center of the circular fluid vortex flow path (B) and delays passage of the one or more air bubbles to the outlet fluid pathway. 2 . The assembly according to claim 1 , wherein the outlet fluid pathway extends from the internal chamber in a direction perpendicular to the circular fluid vortex flow path (B) of fluid within the internal chamber. 3 . The assembly according to claim 1 , wherein at least a portion of the outlet fluid pathway has a cross-sectional area greater than a cross-sectional area of the inlet fluid pathway to reduce fluid velocity in the outlet fluid pathway relative to fluid velocity in the inlet fluid pathway. 4 . The assembly according to claim 1 , wherein the outlet fluid pathway extends substantially parallel to the inlet fluid pathway. 5 . The assembly according to claim 1 , wherein the housing comprises: a first housing section comprising the inlet fluid pathway and the outlet fluid pathway; and a second housing section comprising at least a portion of the internal chamber, wherein one of the first housing section and the second housing section comprises a flange for receiving an end feature of the other of the first housing section and the second housing section. 6 . The assembly according to claim 5 , wherein the housing comprises at least one strengthening rib extending radially outward from at least a portion of the inlet fluid pathway, the outlet fluid pathway, the second housing section, or the first housing section. 7 . The assembly according to claim 6 , wherein the at least one strengthening rib comprises a plurality of strengthening ribs extending radially outward from the inlet fluid pathway, the outlet fluid pathway, the second housing section, or the first housing section. 8 . The assembly according to claim 1 , wherein the housing comprises a light-transmissible material configured to illuminate air bubbles in the internal chamber. 9 . The assembly according to claim 1 , wherein the at least one bubble suspension apparatus is movable between: an injection position in which the outlet fluid pathway extends substantially vertically downward from the internal chamber such that a buoyancy of the one or more air bubbles in the internal chamber further induces the one or more air bubbles to remain suspended in the internal fluid vortex in the internal chamber; and a priming position in which the outlet fluid pathway extends substantially vertically upward from the internal chamber such that the buoyancy of the one or more air bubbles in the internal chamber induces the one or more air bubbles to flow from the internal fluid vortex through the outlet fluid pathway. 10 . The assembly according to claim 1 , wherein the bubble suspension apparatus delays passage of the one or more air bubbles to the outlet fluid pathway by at least 100 milliseconds. 11 . The assembly according to claim 1 , wherein the shutoff valve further comprises a third position providing fluid communication between the at least one first fluid path and at least one third fluid path comprising a spike at a distal end of the third fluid path. 12 . The assembly according to claim 1 , wherein the assembly comprises a pair of first fluid paths, a pair of second fluid paths, and a pair of bubble suspension apparatuses. 13 . The assembly according to claim 12 , wherein a first of the pair of first fluid paths, a first of the pair of second fluid paths, and a first of the pair of bubble suspension apparatuses are combined in a first fluid path component of the assembly and a second of the pair of fluid paths, a second of the pair of second fluid paths, and a second of the pair of bubble suspension apparatuses are combined in a second fluid path component of the assembly. 14 . The assembly according to claim 13 , wherein the first fluid path component is configured to flow a first medical fluid from a first fluid reservoir to the patient and the second fluid path component is configured to flow a second medical fluid from a second fluid reservoir to the patient. 15 . The assembly according to claim 14 , wherein the first fluid reservoir is a first syringe and the second fluid reservoir is a second syringe. 16 . A method for preventing injection of one or more air bubbles into a patient during a powered injection procedure, the method comprising: flowing an injection fluid in an air detection region of a fluid path past at least one upstream air detector; detecting one or more air bubbles in the injection fluid in the air detection region of the fluid path by the at least one upstream air detector; signaling to a processor by the at least one air detector that the one or more air bubbles have been detected; flowing the injection fluid and the one or more air bubbles into a bubble suspension apparatus distal to the air detection region; at least temporarily suspending the one or more air bubbles in an internal fluid vortex in the injection fluid within the bubble suspension apparatus; signaling by the processor to an actuator of a shutoff valve to move the shutoff valve from a first position providing fluid communication with a vasculature of a patient to a second position where fluid communication with the vasculature of the patient is prevented; and moving the shutoff valve by the actuator from the first position to the second position to prevent flowing of the one or more air bubbles to a portion of the fluid path downstream from the shutoff valve, wherein the bubble suspension apparatus delays passage of the one or more air bubbles out of the bubble suspension apparatus for a time sufficient to allow the processor to actuate the actuator and allow the actuator to move the shutoff valve fro