Magnetic resonance imaging of arterial structures

The invention claimed is: 1. A medical imaging system, wherein the medical imaging system comprises: a memory for storing machine executable instructions, and a processor for controlling the medical imaging system, wherein execution of the machine executable instructions causes the processor to: receive a tagged arterial spin labeled (ASL) magnitude image of a region of interest of a subject; receive a control arterial spin labeled (ASL) magnitude image of the region of interest of the subject; construct an arterial image by subtracting the control ASL magnitude image and the tagged ASL magnitude image; construct an arterial mask using the arterial image by identifying arteries in the arterial image; receive a phase contrast magnetic resonance image of at least a portion of the region of interest of the subject; and construct a venous image at least partially by setting voxels of the phase contrast image within the at least a portion of the region of interest that are within the arterial mask to a predetermined background value. 2. The medical imaging system of claim 1 , wherein execution of the machine executable instructions further cause the processor to construct a selective phase contrast arterial image at least partially by setting voxels of the phase contrast image within the at least a portion of the region of interest that are outside of the arterial mask to the predetermined background value. 3. The medical imaging system of claim 2 , wherein execution of the machine executable instructions cause the processor to calculate a composite image by combining the arterial image and the venous image into a composite image. 4. The medical imaging system of claim 1 , wherein the medical imaging system is a magnetic resonance imaging system, wherein the memory further contains phase-contrast pulse sequence commands, wherein the memory further contains tagging pulse sequence commands, wherein the memory further contains control pulse sequence commands, wherein the tagging pulse sequence commands comprise a tagging inversion pulse portion for spin labeling a tagging location within the subject, wherein the control pulse sequence commands comprise a control inversion pulse portion, wherein the phase-contrast pulse sequence commands comprise a phase-contrast readout portion, wherein the phase-contrast readout portion comprises phase-contrast encoding in at least one direction, wherein execution of the machine executable instructions further cause the processor to: acquire tagged magnetic resonance data by controlling the magnetic resonance imaging system with the tagging pulse sequence commands; acquire control magnetic resonance data by controlling the magnetic resonance imaging system with the control pulse sequence commands; reconstruct the tagged arterial spin labeled (ASL) magnitude image using the tagged magnetic resonance data, wherein the tagged ASL magnitude image is received by reconstructing the tagged ASL magnitude image; reconstruct the control arterial spin labeled (ASL) magnitude image using the control magnetic resonance data, wherein the control ASL magnitude image is received by reconstructing the control ASL magnitude image; acquire phase-contrast magnetic resonance data by controlling the magnetic resonance imaging system with the phase-contrast pulse sequence commands; and reconstruct the phase contrast image using the phase contrast magnetic resonance data at least partially using phase encoding in the at least one direction, wherein the phase contrast image is received by reconstructing the phase contrast image. 5. The medical imaging system of claim 4 wherein the tagging location is spatially selective for tagging a spatial region containing a single artery. 6. The medical imaging system of claim 5 , wherein execution of the machine executable instructions cause the processor to repeat acquiring the tagged magnetic resonance data and the control magnetic resonance data for a predetermined number of tagging volumes, and wherein execution of the machine executable instructions causes the processor to calculate the arterial image for each of the predetermined number of tagging volumes. 7. The medical imaging system of claim 4 , wherein the tagging pulse sequence is not spatially selective. 8. The medical imaging system of claim 4 , wherein execution of the tagging inversion pulse portion by the magnetic resonance imaging system causes a tagging magnetization transfer effect in the tagged magnitude image, and wherein execution of the control inversion pulse portion by the magnetic resonance imaging system causes a control magnetization transfer effect in the control magnitude image, and wherein the tagging magnetization transfer effect is subtracted out of the arterial image by the control magnetization transfer effect. 9. The medical imaging system of claim 4 wherein execution of the machine executable instructions further causes the processor to receive a registration between the phase contrast image and the control ASL magnitude image and/or the tagged ASL magnitude image, wherein the identification of voxels of the phase contrast image within the at least a portion of the region of interest that are outside of the arterial mask to the predetermined background value is at least partially performed using the registration. 10. The medical imaging system of claim 9 , wherein execution of the machine executable instructions further cause the processor to receive the registration between the phase contrast image and the control ASL magnitude image and/or the tagged ASL magnitude image by calculating a mapping between voxels of the phase contrast image and the control ASL magnitude image and/or the tagged ASL magnitude image. 11. The medical imaging system of claim 1 , wherein the medical imaging system is a magnetic resonance imaging system, wherein the memory further contains tagging pulse sequence commands and control pulse sequence commands, wherein the tagging pulse sequence commands comprise a tagging inversion pulse portion for spin labeling a tagging location within the subject, wherein the tagging pulse sequence commands comprise a phase-contrast readout portion, wherein the phase-contrast readout portion comprises phase-contrast encoding in at least one direction, wherein the control pulse sequence commands comprise a control inversion pulse portion, wherein the control pulse sequence commands comprises the phase-contrast readout portion, wherein execution of the machine executable instructions further cause the processor to: acquire tagged magnetic resonance data by controlling the magnetic resonance imaging system with the tagging pulse sequence commands; acquire control arterial spin labeled (ASL) magnetic resonance data by controlling the magnetic resonance imaging system with the control pulse sequence commands; reconstruct the tagged arterial spin labeled (ASL) magnitude image using the tagged magnetic resonance data, wherein the tagged ASL magnitude image is received by reconstructing the tagged ASL magnitude image; reconstruct the control magnitude image using the control magnetic resonance data, wherein the control ASL magnitude image is received by reconstructing the control ASL magnitude image; reconstruct the phase image using either the tagged magnetic resonance data and/or the control magnetic resonance data at least partially using phase encoding in the at least one direction, wherein the phase contrast image is received by reconstructing the phase contrast image. 12. The magnetic resonance imaging system of claim 1 , wherein the arterial mask is created using the arterial image according to any one of the following: by thresh