| 摘要 |
The invention relates to the quantitative analysis and/or visualization of the relative motion of objects in particular of the relative motion of one or several objects inside a living entity, for instance the human body or a living cell. The invented system and method allow to quantify and visualize the motion of these objects with respect to the parts of the living entity, which can deform and move itself with respect to each other. Furthermore, the method allows to identify movements and deformations which correspond to situations with a particular meaning for the living entity, for instance predicting complications in a disease progress, etc. An important application is the analysis of motion and deformation of stent-grafts introduced after endovascular repair of aneurysms. Here, the occurrence of deformations leading to graft-limb occlusions and of migrations of the stent-graft leading to so-called endoleaks can be predicted in an early stage. This allows an early intervention, hence, avoiding more severe problems. The motion is calculated from pairs of images corresponding to different points in time using semi-automatic steps to extract point sets (or binary images) and an automatic procedure to determine the motion and deformation of the point sets and to describe it quantitatively. An important part of the method is the visualization allowing the user to have an immediate impression of the occurring movements and deformations.
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