Method for intracranial aneurysm analysis and endovascular intervention planning

What is claimed is: 1. A computer-assisted method of analyzing an intracranial aneurysm and virtually configuring endovascular treatment for the aneurysm, said method being carried out by a processor associated with an a medical imaging system to carry out the steps of the method, wherein the medical imaging system includes a medical imaging scanner that acquires image data and is operably connected to a computer system that controls operation of the scanner and, via a communication channel, to an image processing system that processes the image data signals and that has an image data archive or database adapted to store the image data signals that are produced by the image scanner, an application server, and a user workstation, the method comprising the steps of: a. receiving, by the processor, a user selected 3D digital subtraction angiographic (DSA) image that includes a parent blood vessel with an aneurysm; b. performing vessel segmentation by the processor on the selected 3D DSA image and outputting a segmented digital image of the parent blood vessel; c. receiving, by the processor, a proximal point in the parent vessel around the aneurysm selected by a user from the segmented digital image, a distal point in the parent vessel around the aneurysm selected by a user from the segmented digital image, and a point in a dome of the aneurysm selected by a user from the segmented digital image; d. centering, by the processor, the proximal and distal points in the parent vessel in the segmented digital image; e. extracting, by the processor, the centerline of the parent blood vessel from the segmented digital image using the centered proximal and distal points as seed points wherein the centerline is identified in the parent blood vessel in the segmented digital image; f. separating, by the processor, the aneurysm from the parent blood vessel, based on the proximal point, distal point, and point in the dome, wherein the separated aneurysm is identified in the segmented digital image as separate from the parent blood vessel; g. reconstructing, by the processor, a healthy parent blood vessel in the segmented digital image after separating the aneurysm from the parent blood vessel; h. displaying to the user a plurality of characteristic features of the aneurysm calculated after the aneurysm was separated from the healthy parent blood vessel; and i. configuring, by the processor, a 3D virtual stent in the segmented digital image from the extracted centerline of the parent blood vessel and the plurality of characteristic features that fits the reconstructed parent blood vessel. 2. The method of claim 1 , wherein the performing step comprises reconstructing a surface representation of the parent blood vessel in the segmented digital image. 3. The method of claim of claim 1 , further comprising generating in the segmented digital image a skeleton of the parent blood vessel without the aneurysm. 4. The method of claim of claim 1 , wherein the separating step is implemented using proximal and distal points on the parent blood vessel around the aneurysm and one point in the aneurysm dome. 5. The method of claim 1 , wherein the reconstructing step comprises reconstructing the parent blood vessel in the segmented digital image with the aneurysm separated from the parent blood vessel using the extracted centerline and computed diameters along a length of the parent blood vessel. 6. The method of claim 5 , wherein the reconstructing step comprises reconstructing the extracted centerline without points projected thereon from the aneurysm. 7. The method of claim 6 , wherein reconstructing the extracted centerline comprises reconstructing the extracted centerline from an interpolation of points of the extracted centerline without points projected thereon from the aneurysm. 8. The method of claim 1 , wherein the plurality of characteristic features comprise aneurysm volume and surface area, dome width, dome height, neck length and width, neck angle, and maximum and mean diameters. 9. The method of claim 1 , wherein the configuring step comprises designing and placing the virtual stent on the parent blood vessel in the segmented digital image. 10. The method of claim 1 , wherein the extracted centerline defines axial stent deformation. 11. The method of claim 1 , wherein step c further comprises adjusting the proximal, distal and dome points. 12. The method of claim 1 , further comprising, after displaying to the user the plurality of characteristic features of the aneurysm, receiving user edits of control points of the centerline. 13. The method of claim 1 , further comprising, receiving, from the user, adjustments to the 3D virtual stent configuration. 14. The method of claim 13 , wherein adjustments to the 3D virtual stent configuration include modifications of stent length, stent diameter, and stent location.