Methods and systems for determining the concentration of a contrast agent

What is claimed is: 1. A method for determining a concentration of a contrast agent in imaging data, the method comprising: calculating a pre-contrast attenuation map of a region of interest of a patient; following an administering of the contrast agent to the patient, calculating a post-contrast attenuation map of the region of interest of the patient; determining whether a PET radiotracer tracer has reached a steady-state biological distribution in the patient, comprising: acquiring first PET tracer kinetics prior to the administering of the contrast agent to the patient; acquiring second PET tracer kinetics after the administering of the contrast agent to the patient; and determining whether the PET radiotracer tracer has reached the steady-state biological distribution by comparing the first PET tracer kinetics with the second PET tracer kinetics; and if the PET radiotracer tracer has not reached a steady-state biological distribution, adjusting the post-contrast attenuation map to reflect a change in biological distribution between the pre-contrast attenuation map and the post-contrast attenuation map; determining an increase in attenuation value based on the pre-contrast attenuation map and the post-contrast attenuation map; and calculating a contrast agent concentration map for the region of interest based on the increase in attenuation value. 2. The method of claim 1 , wherein calculating the contrast agent concentration map for the region of interest comprises: multiplying the increase in attenuation value by a mass attenuation coefficient corresponding to the contrast agent. 3. The method of claim 1 , further comprising: adjusting the post-contrast attenuation map to account for one or more systematic differences. 4. The method of claim 1 , further comprising: determining a decay corresponding to PET radiotracer activity following the calculation of the pre-contrast attenuation map; and adjusting the post-contrast attenuation map based on the decay. 5. The method of claim 1 , further comprising: determining whether the patient moved between the calculating of the pre-contrast attenuation map and the calculating of the post-contrast attenuation map; and if the patient moved between the calculating of the pre-contrast attenuation map and the calculating of the post-contrast attenuation map, adjusting the post-contrast attenuation map using a motion correction technique. 6. The method of claim 1 , further comprising: overlaying the contrast agent concentration map on at least one of a PET image and an MR image. 7. The method of claim 6 , wherein the overlaying utilizes user-selectable visual attributes comprising at least one of a color scale, highlighting, and shading. 8. A system for determining concentration of a contrast agent in imaging data, the system comprising: an input data processor configured to: generate a first attenuation data prior to an administering of the contrast agent in a patient's body, wherein the first attenuation data comprises a plurality of picture elements, and generate a second attenuation data after the administering of the contrast agent in the patient's body; and an image data processor configured to: determine whether a PET radiotracer tracer has reached a steady-state biological distribution in the patient, comprising: acquiring first PET tracer kinetics prior to the administering of the contrast agent to the patient; acquiring second PET tracer kinetics after the administering of the contrast agent to the patient; and determining whether the PET radiotracer tracer has reached the steady-state biological distribution by comparing the first PET tracer kinetics with the second PET tracer kinetics; and if the PET radiotracer tracer has not reached a steady-state biological distribution, adjust the first attenuation data to reflect a change in biological distribution between the first attenuation data and the second attenuation data; and determine a contrast agent concentration associated with at least one of the plurality of picture elements based on the first attenuation data and the second attenuation data. 9. The system of claim 8 , wherein the image data processor is further configured to: receive data representing patient movement; and correct at least one of the first attenuation data and the second attenuation data based on the data representing patient movement. 10. The system of claim 8 , wherein at least one of the first attenuation data and the second attenuation data is estimated in response to acquiring at least one of (a) MR image data and (b) PET image data. 11. The system of claim 8 , wherein the image data processor is further configured to determine the contrast agent concentration by: multiplying a difference between first attenuation data and second attenuation data for the at least one of the plurality of picture elements by a factor representing attenuation of the contrast agent. 12. The system of claim 8 , further comprising: a display processor configured to generate a map comprising the determined contrast agent concentration for said plurality of picture elements. 13. The system of claim 12 , wherein the display processor is further configured to: provide the map as an overlay for presentation in combination with at least one of a PET image and an MR image. 14. An article of manufacture for determining concentration of a contrast agent in imaging data, the article of manufacture comprising a non-transitory, tangible computer-readable medium holding computer-executable instructions for performing a method comprising: calculating a pre-contrast attenuation map of a region of interest of a patient; following an administering of the contrast agent to the patient, calculating a post-contrast attenuation map of the region of interest of the patient; determining whether a PET radiotracer tracer has reached a steady-state biological distribution in the patient, comprising: acquiring first PET tracer kinetics prior to the administering of the contrast agent to the patient; acquiring second PET tracer kinetics after the administering of the contrast agent to the patient; and determining whether the PET radiotracer tracer has reached the steady-state biological distribution by comparing the first PET tracer kinetics with the second PET tracer kinetics; and if the PET radiotracer tracer has not reached a steady-state biological distribution, adjusting the post-contrast attenuation map to reflect a change in biological distribution between the pre-contrast attenuation map and the post-contrast attenuation map; determining an increase in attenuation value based on the pre-contrast attenuation map and the post-contrast attenuation map; and calculating a contrast agent concentration map for the region of interest based on the increase in attenuation value. 15. The article of manufacture of claim 14 , wherein calculating the contrast agent concentration map for the region of interest comprises: multiplying the increase in attenuation value by a mass attenuation coefficient of the contrast agent. 16. The article of manufacture of claim 14 , wherein the method farther comprises: adjusting the contrast agent concentration map for one or more systematic differences.