Devices, systems, and methods for assessment of vessels

What is claimed is: 1. A method of evaluating a vessel of a patient, comprising: obtaining distal intravascular pressure data from a first intravascular pressure-sensing instrument positioned within a vessel of a patient while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel from a first position to a second position, the first intravascular pressure-sensing instrument including a radiopaque element; obtaining proximal intravascular pressure data from a second intravascular pressure-sensing instrument positioned within the patient while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel and the second intravascular pressure-sensing instrument is maintained in a fixed location within the vessel; obtaining an angiographic image of the vessel while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel, wherein the angiographic image comprises the radiopaque element at corresponding locations within the vessel while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel; correlating, for each heartbeat cycle of the patient, the distal intravascular pressure data from the first intravascular pressure-sensing instrument to a particular location of the vessel on the angiographic image based on the location of the radiopaque element within the vessel in the angiographic image; calculating, for each heartbeat cycle of the patient, a pressure ratio of the obtained distal intravascular pressure data to the obtained proximal intravascular pressure data at the correlated location for each heartbeat cycle, wherein the pressure ratio is calculated using the distal intravascular pressure data and the proximal intravascular pressure data obtained during a diagnostic window that encompasses only a portion of each heartbeat cycle of the patient; storing, in a memory, the calculated pressure ratio for each heartbeat cycle with the correlated location for the heartbeat cycle; and outputting an enhanced angiographic image of the vessel on a display, the enhanced angiographic image including the angiographic image overlaid with visualizations representing: an indicator showing the correlated location along the vessel; and the pressure ratio of the obtained distal intravascular pressure data to the obtained proximal intravascular pressure data at the correlated location for each heartbeat cycle, wherein the visualizations include a numerical value of the pressure ratio adjacent to the indicator of the correlated location for each heartbeat cycle on the angiographic image. 2. The method of claim 1 , wherein the first position is distal of at least one stenosis of the vessel. 3. The method of claim 2 , wherein the second position is proximal of the at least one stenosis of the vessel such that moving the second instrument longitudinally through the vessel comprises a pullback. 4. The method of claim 1 , further comprising obtaining intravascular flow data from the intravascular pressure-sensing instruments positioned within the vessel of the patient. 5. The method of claim 4 , wherein the enhanced angiographic image further includes visualizations representing a calculated flow ratio. 6. The method of claim 1 , wherein the angiographic image is at least one of a two dimensional angiographic image, a three dimensional angiographic image, and a computed tomography angiographic (CTA) image. 7. The method of claim 1 , wherein the visualizations further include an intensity map based on changes in the ratio of the distal intravascular pressure data to the proximal intravascular pressure data as the first intravascular pressure-sensing instrument is moved longitudinally through the vessel. 8. The method of claim 7 , wherein a first visual characteristic of the intensity map is associated with the ratio of the distal intravascular pressure data to the proximal intravascular pressure data being above a threshold value and a second visual characteristic of the intensity map is associated with the ratio of the distal intravascular pressure data to the proximal intravascular pressure data being below the threshold value. 9. The method of claim 8 , wherein the first visual characteristic is a first color and the second visual characteristic is a second color visually distinguishable from the first color. 10. A system for evaluating a vessel of a patient, comprising: a first intravascular pressure-sensing instrument sized and shaped for introduction into the vessel of the patient, the first intravascular pressure-sensing instrument including a radiopaque element; a processing system in communication with the first intravascular pressure-sensing instrument, a second intravascular pressure-sensing instrument, an external imaging system, and a display, the processing system configured to: obtain distal intravascular pressure data obtained by the first intravascular pressure-sensing instrument while positioned within a vessel of a patient and moved longitudinally through the vessel from a first position to a second position; obtain proximal intravascular pressure data obtained by the second intravascular pressure-sensing instrument while positioned at a fixed location within the patient while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel; obtain an angiographic image of the vessel obtained by the external imaging system while the first intravascular pressure-sensing instrument was moved longitudinally through the vessel, wherein the angiographic image comprises the radiopaque element at corresponding locations within the vessel while the first intravascular pressure-sensing instrument is moved longitudinally through the vessel; correlate, for each heartbeat cycle of the patient, the distal intravascular pressure data from the first intravascular pressure-sensing instrument to a particular location of the vessel on the angiographic image based on a location of the radiopaque element within the vessel in the angiographic image; calculate, for each heartbeat cycle of the patient, a pressure ratio of the obtained distal intravascular pressure data to the obtained proximal intravascular pressure data at the correlated location for each heartbeat cycle, wherein the pressure ratio is calculated using the distal intravascular pressure data and the proximal intravascular pressure data obtained during a diagnostic window that encompasses only a portion of each heartbeat cycle of the patient; store, in a memory, the calculated pressure ratio for each heartbeat cycle with the correlated location for the heartbeat cycle; and output an enhanced angiographic image of the vessel on the display, the enhanced angiographic image including the angiographic image overlaid with visualizations representing: an indicator showing the correlated location along the vessel; and the pressure ratio of the obtained distal intravascular pressure data to the obtained proximal intravascular pressure data at the correlated location for each heartbeat cycle, wherein the visualizations include a numerical value of the pressure ratio adjacent to the indicator of the correlated location for each heartbeat cycle, on the angiographic image. 11. The system of claim 10 , wherein the processing system is further configured to obtain intravascular flow data from the intravascular pressure-sensing instruments positioned within the vessel of the patient. 12. The system of claim 11 , wherein the processing system is further configured to output the enhanced angiographic image with visualizations representing a calculated flow ratio.