Pressure sensing guidewire systems including an optical connector cable

What is claimed is: 1. An optical connector cable assembly, comprising: an optical connector cable comprising a first optical fiber extending therefrom; wherein the optical connector cable includes a distal connector configured to connect to a guidewire, the distal connector comprising an inner housing and a guidewire locking mechanism; an actuator disposed on the distal connector, wherein the actuator includes a slidable member that is slidable along the distal connector and wherein actuation of the actuator moves the inner housing from a first position to a second position; wherein when the inner housing is in the first position the guidewire locking mechanism is configured to secure the guidewire and the guidewire is rotatable with respect to the optical connector cable; and wherein when the inner housing is in the second position the guidewire locking mechanism is in an open state for receiving or removing the guidewire. 2. The optical connector cable assembly of claim 1 , wherein the guidewire locking mechanism includes a collet closer. 3. The optical connector cable assembly of claim 2 , wherein the guidewire locking mechanism further comprises a collet spring and a collet. 4. The optical connector cable assembly of claim 1 , wherein the guidewire locking mechanism includes a spring loaded cam assembly. 5. The optical connector cable assembly of claim 1 , further comprising an axial spring adjacent the inner housing, when the inner housing is in the second position, the axial spring collapses allowing the guidewire locking mechanism to open. 6. The optical connector cable assembly of claim 1 , wherein the inner housing further comprises a spline gear, when the inner housing is in the second position, the spline gear prevents the inner housing from rotating relative to the optical connector cable. 7. The optical connector cable of claim 6 , further comprising a collet and a collet cap, when the inner housing is in the second position, the collet cap can be rotated relative to the optical connector cable. 8. The optical connector cable assembly of claim 1 , wherein the guidewire locking mechanism includes an offset pinch clamp. 9. A medical device system for measuring blood pressure, the system comprising: an optical connector cable including a first optical fiber and a distal connector comprising an inner housing and a guidewire locking mechanism, the distal connector capable of being coupled to a pressure sensing guidewire; the pressure sensing guidewire including a pressure sensor and a second optical fiber extending proximally from the pressure sensor, the second optical fiber being capable of optically communicating with the first optical fiber, wherein the optical connector cable is designed to be coupled to the pressure sensing guidewire; and an actuator comprising a sliding mechanism that is slidable along the distal connector, wherein actuation of the actuator moves the inner housing from a first position to a second position, wherein when the inner housing is in the first position the guidewire locking mechanism is in a closed state for retaining the pressure sensing guidewire and the pressure sensing guidewire is rotatable with respect to the optical connector cable, and wherein when the inner housing is in the second position the inner housing is moved in a distal direction from the optical connector cable and the guidewire locking mechanism is in an open state for receiving or removing the pressure sensing guidewire. 10. The system of claim 9 , wherein the guidewire locking mechanism includes a collet closer. 11. The system of claim 10 , wherein the guidewire locking mechanism further comprises a collet spring and a collet, when the inner housing is in the second position, the collet spring is compressed allowing the collet to open, and when the inner housing is in the first position, the collet spring closes the collet closer. 12. The system of claim 9 , wherein the guidewire locking mechanism includes a spring loaded cam assembly. 13. The system of claim 9 , further comprising an axial spring adjacent the inner housing, when the inner housing is in the second position, the axial spring collapses allowing the guidewire locking mechanism to open. 14. The system of claim 9 , wherein the inner housing further comprises a spline gear, when the inner housing is in the second position, the spline gear prevents the inner housing from rotating relative to the optical connector cable. 15. The system of claim 14 , further comprising a collet and a collet cap, when the inner housing is in the second position, the collet cap may be rotated relative to the optical connector cable. 16. The system of claim 9 , wherein the guidewire locking mechanism includes an offset pinch clamp. 17. An optical connector cable, comprising: a distal connector comprising an inner housing and a guidewire locking mechanism, the distal connector capable of being coupled to a guidewire; and an actuator comprising an axially translatable member slidable along the distal connector, wherein actuation of the actuator moves the inner housing of the distal connector from a first position to a second position, wherein when the inner housing is in the first position the guidewire locking mechanism is in a closed state for retaining the guidewire and the guidewire is rotatable with respect to the optical connector cable, and wherein when the inner housing is in the second position the inner housing is moved in a distal direction from the optical connector cable and the guidewire locking mechanism is in an open state for receiving or removing the guidewire. 18. The optical connector cable of claim 17 , wherein the distal connector further comprises an axial spring adjacent the inner housing, when the inner housing is in the second position, the axial spring collapses allowing the guidewire locking mechanism to open.