Sheath with optically interrogatable sensors

What is claimed is: 1. An intravascular sensor system comprising: a sheath configured to be inserted into a vessel of a patient, the sheath including: an intravascular sensor array comprising a plurality of optical pressure sensors embedded within a wall of the sheath along a length of the sheath, and a lumen extending along the length of the sheath adjacent to the intravascular sensor array; and a catheter sized and shaped for selective insertion within the lumen of the sheath, the catheter including an optical fiber for transmitting an optical beam for optically interrogating individual optical pressure sensors of the plurality of optical pressure sensors as the catheter moves within the lumen along the length of the sheath. 2. The intravascular sensor system of claim 1 , wherein each of the optical pressure sensors comprises: a substrate having a central port; a first membrane extending over one end of the central port; and a second membrane extending over the other end of the central port. 3. The intravascular sensor system of claim 2 , wherein the substrate is fabricated from wafer material. 4. The intravascular sensor system of claim 2 , wherein each membrane includes a mirror coating on at least one face of the membrane. 5. The intravascular sensor system of claim 4 , wherein the mirror coating completely covers the membrane. 6. The intravascular sensor system of claim 1 , wherein the intravascular sensor array further comprises optical temperature sensors. 7. A method of detecting an intravascular pressure, comprising: inserting into a vessel of a patent an intravascular sheath comprising a sensor array, the sensor array comprising a plurality of optical sensors embedded within a wall of the sheath and spaced along a length of the sheath; inserting an optical catheter into a lumen of the sheath; scanning the vessel with an optical signal from the catheter along the length of the sheath; drawing the catheter through the lumen along the length of the sheath to interrogate individual optical sensors of the plurality of optical sensors along the length of the sheath; and determining pressures and/or temperatures at the individual optical sensors based on optical responses of the individual optical sensors to the optical signal from the catheter. 8. The method of detecting in claim 7 , further comprising using a guidewire to insert the intravascular sheath into the vessel. 9. A method of detecting an intravascular pressure, comprising: inserting into a vessel of a patient an intravascular sheath comprising a sensor array, the sensor array comprising a plurality of sensors embedded within a wall of the intravascular sheath along a length of the intravascular sheath; inserting an optical catheter into the intravascular sheath; scanning the vessel with an optical signal from the catheter along the length of the intravascular sheath; drawing the catheter through the intravascular sheath; scanning individual sensors of the plurality of sensors with the optical signal; determining pressures and/or temperatures at the individual sensors based on optical responses of the individual sensors to the optical signal; and generating a volumetric image of the vessel using the optical signal. 10. The method of detecting in claim 7 , wherein the scanning of the sensors further comprises determining a wavelength of reflectivity minima for each sensor. 11. The method of detecting in claim 7 , further comprising developing a pressure and/or temperature profile along the vessel based on the scanning of the sensors. 12. The method of claim 9 , wherein the volumetric image is generated based on the scan of the vessel with the optical signal. 13. The method of claim 9 , wherein the drawing the catheter through the sheath and scanning the sensors is performed simultaneously. 14. The method of claim 13 , wherein the catheter is rotated when being drawn through the sheath and scanning the sensors. 15. The method of claim 9 , wherein the drawing the catheter through the sheath and scanning the vessel is performed simultaneously. 16. The method of claim 9 , wherein the sensors are spaced along a length of the sheath and the drawing the catheter through the sheath includes drawing the catheter through a lumen of the sheath along the length of the sheath. 17. The method of claim 9 , wherein the catheter is inserted into a central lumen of the sheath and the sensors are embedded within a wall of the sheath surrounding the central lumen.