System for orientation and display of ultrasound imaging data

What is claimed is: 1. A system for orientation and display of intra-vascular ultrasound imaging data, comprising: an acquisition processor configured for acquiring, during navigation of an ultrasound catheter through a vessel, for a plurality of individual intra-vascular ultrasound images comprising an image sequence, data representing an individual image and orientation data associated with said individual image indicating orientation of said catheter and individual image with respect to a reference position; an image data processor for generating a plurality of reoriented individual intra-vascular ultrasound images, wherein the individual intra-vascular ultrasound images are reoriented by aligning said plurality of individual intra-vascular ultrasound images with respect to the reference position by rotating individual images of said image sequence to have substantially the same orientation with respect to said reference position in response to said orientation data; and a display for displaying the reoriented individual intra-vascular ultrasound images, wherein the image data processor presents on the display the original data before reorientation and indicates the direction of the reference position. 2. The system according to claim 1 , wherein the reference position is external to patient anatomy, the external reference position is a position of an X-ray radiation source in an X-ray imaging system and said orientation data associated with said individual image indicates angular rotation of said catheter and individual image with respect to a reference image in said image sequence. 3. The system according to claim 2 , wherein said angular rotation of said catheter is derived from analysis of first and second X-ray images acquired of said vessel corresponding to said reference image and individual intravascular ultrasound image, respectively and acquired at substantially the same times. 4. The system according to claim 3 , wherein said analysis of first and second X-ray images determines said angular rotation by determining rotational movement of a feature on said catheter between said first and second X-ray images. 5. The system according to claim 1 , wherein said reference position is a position of a source of electro-magnetic radiation. 6. The system according to claim 1 , wherein said reference position is a position of a radiation signal source and said orientation data associated with said individual image indicates angular rotation of said catheter with respect to said source and is derived from analysis of an X-ray image acquired of said vessel and ultrasound catheter corresponding to said individual image and acquired at substantially the same time as said individual image. 7. The system according to claim 6 , wherein said angular rotation of said catheter with respect to said source is derived from analysis of said X-ray image in response to a radio-opaque marker around the circumference of the catheter comprising a 2-dimensional X-ray profile uniquely identifying angular rotation of the catheter in said image. 8. The system according to claim 1 , wherein said reference position is a position of a radiation signal source and said orientation data associated with said individual image indicates angular rotation of said catheter with respect to said source and is derived from signal data acquired from a radiation detector array around the circumference of said ultrasound catheter. 9. The system according to claim 8 , wherein said radiation detector array comprises an array of individual radiation microdetectors and said signal data indicates X-ray signal strength in a direction of each microdetector and said image data processor processes said signal data to determine orientation of said catheter with respect to said source by interpolating the direction of the X-ray source from X-ray signal strength detected in each direction of each microdetector. 10. The system according to claim 1 , wherein said reference position is a direction indicating reference point. 11. The system according to claim 1 , wherein said reference position is an X-ray radiation detector plane. 12. An ultrasound catheter system supporting orientation and display of intra-vascular ultrasound imaging data, comprising: an external reference radiation signal source configured to be positioned external to a patient anatomy and an ultrasound catheter including a radiation detector configured for providing, an individual image acquired using the ultrasound catheter, and orientation data associated with said individual image and derived using the radiation detector, said orientation data indicating angular rotation of said catheter in a vessel and the acquired individual image with respect to a reference position external to patient anatomy, wherein the radiation detector detects an orientation of the catheter with respect to the patient anatomy by detecting a direction of the reference radiation signal source, wherein said external reference position is a position of a radiation signal source of an X-ray imaging system and said orientation data associated with said individual image indicates angular rotation of said catheter with respect to said source and is derived from analysis of an X-ray image acquired by said imaging system of an ultrasound catheter within a vessel corresponding to said acquired individual image and acquired at substantially the same time as said acquired individual image. 13. The system according to claim 12 , wherein said external reference radiation signal source comprises an X-ray radiation source of an X-ray imaging system and said radiation detector comprises a radiation detector array of individual radiation microdetectors and provides signal data indicates X-ray signal strength in a direction of each microdetector enabling an image data processor to process said signal data to determine orientation of said catheter with respect to said source by interpolating the direction of the X-ray source from X-ray signal strength detected in each direction of each microdetector. 14. The system according to claim 12 , wherein said angular rotation of said catheter with respect to said source is derived from analysis of said X-ray image in response to a radio-opaque marker around the circumference of the catheter comprising a 2-dimensional X-ray profile uniquely identifying angular rotation of the catheter in said image. 15. A method for orientation and display of intra-vascular ultrasound imaging data, comprising the activities of: acquiring, during navigation of an ultrasound catheter through a vessel, for a plurality of individual intra-vascular ultrasound images comprising an image sequence, data representing an individual image and orientation data associated with said individual image indicating orientation of said catheter and individual image with respect to a reference position external to patient anatomy; generating a plurality of reoriented individual intra-vascular ultrasound images, wherein the individual intra-vascular ultrasound images are reoriented by aligning said plurality of individual intra-vascular ultrasound images with respect to the external reference position by rotating individual images of said image sequence to have substantially the same orientation with respect to said external reference position in response to said orientation data; and displaying the reoriented individual intra-vascular ultrasound images and the original data before reorientation with indication of the direction of the reference position. 16. The method a