Multiple fluid delivery system with multi-use disposable set and features thereof

We claim: 1 . A syringe comprising: a proximal end and a distal end spaced apart from the proximal end along a longitudinal axis to define a syringe interior; and a rotatable valve in fluid communication with the syringe interior, the rotatable valve rotatably operable between a filling position for filling the syringe interior with fluid and a delivery position for delivering the fluid from the syringe interior, wherein the rotatable valve has a valve head with a recessed slot shaped to receive a coupling mechanism of a powered fluid injector to operate the rotatable valve between the filling position and the delivery position. 2 . The syringe of claim 1 , wherein the recessed slot is configured for receiving a spring-loaded blade of the coupling mechanism. 3 . The syringe of claim 2 , wherein, when the blade of the coupling mechanism is received within the recessed slot, rotation of the coupling mechanism rotates the rotatable valve. 4 . The syringe of claim 2 , wherein a depth of the recessed slot decreases in a direction from a first end of the recessed slot to a second end of the recessed slot. 5 . The syringe of claim 4 , wherein the spring-loaded blade of the coupling mechanism has an inclined surface corresponding to the depth of the recessed slot. 6 . The syringe of claim 5 , wherein the inclined surface of the spring-loaded blade allows the spring-loaded blade to ride over an outer sidewall and along a top surface of the valve head of the rotatable valve and wherein, when the spring-loaded blade is rotationally aligned with the recessed slot, the spring-loaded blade is urged into the recessed slot under a restoring action of an elastically resilient member. 7 . The syringe of claim 6 , wherein the outer sidewall of the rotatable valve has a beveled, chamfered, or rounded edge on a distal perimeter of the outer sidewall to facilitate engagement between the inclined surface of the blade and the valve head. 8 . The syringe of claim 6 , wherein the spring-loaded blade is configured to maintain contact with the rotatable valve as the coupling mechanism rotates into alignment with the recessed slot. 9 . The syringe of claim 1 , further comprising a second syringe, wherein the second syringe comprises a proximal end and a distal end spaced apart from the proximal end along a longitudinal axis to define a second syringe interior; and a second rotatable valve in fluid communication with the second syringe interior, the second rotatable valve rotatably operable between a filling position for filling the second syringe interior with fluid and a delivery position for delivering the fluid from the second syringe interior, wherein the second rotatable valve has a second valve head with a second recessed slot shaped to receive a second coupling mechanism of the powered fluid injector to operate the second rotatable valve between the filling position and the delivery position. 10 . The syringe of claim 9 , further comprising a manifold for selectable fluid communication with the syringe interior through the distal end of the syringe and the second syringe interior through the distal end of second syringe, wherein the selectable fluid communication is controlled by selective rotation of the rotatable valve and the second rotatable valve between the respective filling position and the delivery position of the rotatable valve and the second rotatable valve. 11 . The syringe of claim 10 , further comprising a third syringe, wherein the third syringe comprises a proximal end and a distal end spaced apart from the proximal end along a longitudinal axis to define a third syringe interior; and a third rotatable valve in fluid communication with the third syringe interior, the third rotatable valve rotatably operable between a filling position for filling the third syringe interior with fluid and a delivery position for delivering the fluid from the third syringe interior, wherein the third rotatable valve has a third valve head with a third recessed slot shaped to receive a third coupling mechanism of the powered fluid injector to operate the third rotatable valve between the filling position and the delivery position. 12 . The syringe of claim 11 , wherein the manifold is further configured for selectable fluid communication with the third syringe interior through the distal end of the third syringe, wherein the selectable fluid communication is further controlled by selective rotation of the third rotatable valve between the filling position and the delivery position of the third rotatable valve. 13 . The syringe of claim 12 , further comprising a frame connected to a proximal end of the syringe, the second syringe, and the third syringe. 14 . A rotatable valve for a syringe, the rotatable valve comprising: a valve head having an outer sidewall; a recessed slot along a top surface of the valve head, the recessed slot being shaped to receive a coupling mechanism of a powered fluid injector, wherein a depth of the recessed slot decreases in a direction from a first end of the recessed slot to a second end of the recessed slot; and a beveled, chamfered, or rounded edge on a distal perimeter of the outer sidewall to facilitate engagement between an inclined surface of a blade of the coupling mechanism and the valve head, wherein the rotatable valve includes at least a filling position and a delivery position for filling and delivering a fluid from an interior of the syringe and wherein the rotatable valve is rotatable between the filling position and the delivery position.