Intravascular sensing method and system

The invention claimed is: 1. A method of calculating a corrected Fractional Flow Reserve comprising: delivering a pressure sensing device to a location in a blood vessel, the location having a stenosis, the pressure sensing device having a cross-sectional area in a portion of the device adapted to cross the stenosis during measurement of a pressure distal to the stenosis; positioning the pressure sensor distal to the stenosis; measuring the pressure distal to the stenosis while the pressure sensor is positioned distal to the stenosis; measuring a pressure proximal to the stenosis; and calculating with a processor the corrected Fractional Flow Reserve using the measured proximal and distal pressures and applying a correction factor or correction equation that is based on the cross-sectional area of the portion of the pressure sensing device adapted to cross the stenosis during measurement of the distal pressure and is based on a different cross-sectional area of a portion of a different pressure sensing device adapted to cross the stenosis during measurement of the pressure distal to the stenosis, wherein the correction factor or correction equation corrects for changes in the measured distal pressure caused by a presence of the pressure sending device having the cross-sectional area different from the cross-sectional area of the different pressure sensing device to produce the corrected Fractional Flow Reserve, wherein the corrected Fractional Flow Reserve approximates a Fractional Flow Reserve that would have been obtained if the distal pressure was measured using the different device. 2. The method of claim 1 further comprising selecting the correction factor or correction equation from a group of at least two correction factors or correction equations, wherein the selection of the correction factor or correction equation is determined by the cross-sectional area of the portion of the pressure sensing device crossing the stenosis during the step of measuring the distal pressure or by a type of the pressure sensing device. 3. The method of claim 2 wherein the selection of the correction factor or correction equation is further determined by one or more of a size of the stenosis, a size of a lumen of the blood vessel, and a rate of blood flow. 4. The method of claim 3 wherein the pressure sensing device further comprises one or more sensors configured to measure the size of the stenosis, the size of the lumen, and/or the rate of blood flow. 5. The method of claim 1 wherein the different device is a pressure sensing guidewire. 6. The method of claim 1 wherein the portion of the different device that would cross the stenosis has a maximum diameter of about 0.014 inches. 7. The method of claim 1 further comprising providing a visual display of the corrected Fractional Flow Reserve. 8. The method of claim 1 wherein calculating a corrected Fractional Flow Reserve comprises multiplying the measured distal pressure by a correction factor to calculate a corrected distal pressure and calculating the corrected Fractional Flow Reserve using the corrected distal pressure. 9. The method of claim 1 wherein calculating a corrected Fractional Flow Reserve comprises calculating a calculated Fractional Flow Reserve using the measured proximal and distal pressures and applying a correction equation to the calculated Fractional Flow Reserve to obtain a corrected Fractional Flow Reserve. 10. A method of calculating a corrected Fractional Flow Reserve comprising: delivering a pressure sensing device to a location in a blood vessel, the location having a stenosis, the pressure sensing device having a cross-sectional area in a portion of the device adapted to cross the stenosis during measurement of a pressure distal to the stenosis; positioning the pressure sensing device distal to the stenosis; measuring a pressure distal to the stenosis while the pressure sensing device is positioned distal to the stenosis; measuring a pressure proximal to the stenosis; selecting with a processor a correction factor or correction equation, wherein the selection of the correction factor or correction equation is determined by both the cross-sectional area of the portion of the pressure sensing device crossing the stenosis during the step of measuring the distal pressure and a different cross-sectional area of a portion of a different pressure sensing device adapted to cross the stenosis during measurement of the pressure distal to the stenosis, and wherein the correction factor or correction equation corrects for changes in the measured distal pressure caused by a presence of the pressure sensing device having the cross-sectional area different form the cross-sectional area of the different pressure sensing device; and calculating with the processor the corrected Fractional Flow Reserve using the measured proximal and distal pressures and application of the correction factor or correction equation, wherein the corrected Fractional Flow Reserve approximates a Fractional Flow Reserve that would have been obtained if the distal pressure was measured using the different device. 11. The method of claim 10 wherein the pressure sensing device further comprises one or more sensors configured to measure a size of the stenosis, a size of a lumen, and/or a rate of blood flow. 12. The method of claim 11 wherein the selection of the correction factor or correction equation is further determined by one or more of the size of the stenosis, the size of a lumen of the blood vessel, and/or the rate of blood flow. 13. The method of claim 10 wherein the different device is a pressure sensing guidewire. 14. The method of claim 10 wherein the different device has an outer diameter of about 0.014 inches. 15. A system for calculating a corrected Fractional Flow Reserve associated with a stenosis in a blood vessel comprising: a pressure sensing device configured for placement within a blood vessel to measure pressure distal to a stenosis, the pressure sensing device having a cross-sectional area in a portion of the device adapted to cross the stenosis during measurement of a pressure distal to the stenosis; a processing device in communication with the pressure sensing device; and a data set comprising a group of at least two correction factors or correction equations, each correction factor or correction equation corresponding to a cross-sectional area of a portion of a standard pressure sensing device adapted to cross a stenosis when measuring a pressure distal to the stenosis or to an identify of a standard pressure sensing device, wherein the data set is stored within a memory component of the processing device or within a memory component accessible by the processing device; wherein the processing device is configured to select a correction factor or correction equation that is based on the cross-sectional area of the pressure sensing device and that is based on the cross-sectional area of the standard pressure sensing device having a different cross-sectional area in a portion of the standard pressure sensing device adapted to cross the stenosis during measurement of the pressure distal to the stenosis, wherein the correction factor or correction equation corrects for changes in the measured distal pressure caused by the presence of the pressure sensing device having the cross-sectional area different from the cross-sectional area of the standard pressure sensing device; and wherein the processing device is further configured to calculate the corrected Fractional Flow Reserve using the selected correction factor or correction equation and pressure data received