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

We claim: 1. A multi-fluid injector system, comprising: a powered fluid injector comprising a housing enclosing at least one reciprocally operable piston element; a multi-use disposable set (MUDS) connectable to the powered fluid injector, the MUDS comprising: at least one syringe having a proximal end and a distal end spaced apart from the proximal end along a longitudinal axis, and a plunger reciprocally movable by the at least one reciprocally operable piston element within a syringe interior of the at least one syringe between the proximal end and the distal end; a manifold in fluid communication with the distal end of the at least one syringe; at least one valve in fluid communication with the syringe interior, the at least one valve operable between a filling position for filling the syringe interior with a fluid and a delivery position for delivering the fluid from the syringe interior; and at least one connection port in fluid communication with the manifold and the syringe interior when the at least one valve is in the delivery position; and a coupling mechanism for operating the at least one valve between the filling position and the delivery position, wherein the coupling mechanism comprises a blade, wherein the at least one valve has a slot shaped to receive the blade of the coupling mechanism, wherein the coupling mechanism self-aligns with the at least one valve to receive the blade of the coupling mechanism within the slot of the at least one valve and wherein the coupling mechanism is spring-loaded to maintain contact with the at least one valve as the blade of the coupling mechanism rotates into alignment with the slot of the at least one valve. 2. The multi-fluid injector system of claim 1 , wherein, when the blade of the coupling mechanism is received within the slot of the at least one valve, rotation of the coupling mechanism causes the at least one valve to rotate. 3. The multi-fluid injector system of claim 1 , wherein, when the blade of the coupling mechanism is aligned with the slot of the at least one valve, the blade is urged into the slot under a restoring action of an elastically resilient member. 4. The multi-fluid injector system of claim 1 , further comprising a drive mechanism for operating the coupling mechanism. 5. The multi-fluid injector system of claim 4 , wherein the drive mechanism rotates the coupling mechanism. 6. The multi-fluid injector system of claim 1 , wherein the blade has at least one inclined surface that is angled relative to a longitudinal axis of the at least one valve. 7. A method of aligning a rotatable valve at a distal end of a syringe with a coupling mechanism of a fluid injector, the method comprising; inserting the syringe into a receiving space of the fluid injector; forcing a blade of the coupling mechanism in a vertically upward direction to ride over an outer sidewall and along a top surface of a valve head of the rotatable valve; rotating the coupling mechanism around a longitudinal axis until the blade is self-aligned with a recessed slot in the valve head; and when the blade of the coupling mechanism is self-aligned with the recessed slot of the valve head, urging the blade into the recessed slot under a restoring force of an elastically resilient member associated with the blade. 8. The method of claim 7 , wherein forcing the blade of the coupling mechanism in the vertically upward direction comprises: contacting an inclined surface of the blade of the coupling mechanism with the outer sidewall of the valve head, wherein the inclined surface of the blade slides along the outer sidewall as the syringe is moved into the receiving space of the fluid injector; and compressing the elastically resilient member associated with the blade as the blade is forced in the vertically upward direction such that the restoring force is stored in the elastically resilient member. 9. The method of claim 8 , wherein contacting the inclined surface of the blade with the outer sidewall of the valve head comprises: contacting the inclined surface of the blade with a beveled, chamfered, or rounded edge of a distal perimeter of the outer sidewall of the valve head to facilitate engagement between the inclined surface and the valve head. 10. The method of claim 8 , wherein rotating the coupling mechanism around the longitudinal axis until the blade is self-aligned with the recessed slot in the valve head comprises: rotating the coupling mechanism until an end of the blade having the inclined surface is adjacent to a lip at one end of the recessed slot. 11. The method of claim 7 , further comprising: communicating a position of the valve head relative to a filling position and a delivery position of the rotatable valve to an operating system of the fluid injector; and determining by the operating system an orientation of the rotatable valve and a correct rotation of the rotatable valve to operatively rotate the rotatable valve between the filling position, the delivery position, and a closed position.