System for real-time organ segmentation and tool navigation during tool insertion in interventional therapy and method of operation thereof

What is claimed is: 1. An interventional therapy system, comprising: at least one controller: configured to obtain a reference image dataset of an object of interest (OOI); configured to segment the reference image dataset to determine peripheral outlines of the OOI in a plurality of image slices; configured to acquire a current image of the OOI using an ultrasound probe; configured to select a peripheral outline of a selected image slice of the plurality of slices of the reference image dataset which is determined to correspond to the current image; configured to deformably register the selected image slice of the plurality of slices of the reference image dataset with the current image to obtain at least one deformation vector; and configured to apply the at least one deformation vector to the selected peripheral outline of the selected image slice selected from the reference image and corresponding to the current image to obtain a modified peripheral outline of the OOI in the selected image slice of the reference image dataset that represents a most current estimated peripheral outline by modifying the selected peripheral outline of the selected image slice of the plurality of slices of the reference image dataset in accordance with the at least one deformation vector without using any peripheral outline in the current image. 2. The interventional therapy system of claim 1 , further comprising a rendering device, wherein the controller is further configured to render the current image with the modified selected peripheral outline of the selected image slice of the plurality of slices of the reference image dataset superposed thereon using the rendering device. 3. The interventional therapy system of claim 1 , further comprising at least one sensor which provides location information comprising at least one of a position and an orientation of the ultrasound probe when the current image was acquired. 4. The interventional therapy system of claim 3 , wherein the controller is configured to select the selected image slice of the plurality of slices of the reference image dataset in accordance with the location information of the current image. 5. The interventional therapy system of claim 1 , wherein the deformation vector is formed in accordance with elastic deformation constraints. 6. The interventional therapy system of claim 1 , wherein the current image comprises an image slice having a slice type selected from one of an axial or sagittal slice types and the image slices comprise a plurality of images of the same slice type as the current image. 7. The interventional therapy system of claim 1 , wherein the controller is further configured to determine whether the modified selected peripheral outline of the image slice of the plurality of slices of the reference image dataset exceeds a threshold boundary change. 8. The interventional therapy system of claim 7 , wherein the controller is further configured to optimize placement of catheters when it is determined that the modified selected peripheral outline of the image slice of the plurality of slices of the reference image dataset exceeds the threshold boundary change. 9. The interventional therapy system of claim 1 , wherein the controller is further configured to select an image slice from the plurality of slices of the reference dataset which is determined to correspond to the current image. 10. An interventional therapy system, comprising: at least one controller: configured to obtain a reference image dataset of an object of interest (OOI); configured to segment the reference image dataset to determine peripheral outlines of the OOI; configured to acquire a current image of the OOI using an ultrasound probe; configured to select a cross-section of the reference image dataset which is determined to correspond with the current image; configured to select a peripheral outline of the segmented reference image dataset that correspond with the selected cross-section of the reference image dataset; configured to deformably register the selected cross-section of slices of the reference image dataset with the current image to obtain at least one deformation vector; and configured to apply the at least one deformation vector to the selected peripheral outline of the selected image slice selected from the reference image and corresponding to the current image to obtain a modified peripheral outline of the OOI in the selected image slice of the reference image dataset that represents a most current estimated peripheral outline by modifying the selected peripheral outline in accordance with at least one deformation vector without using any peripheral outline in the current image. 11. The interventional therapy system of claim 10 , further comprising a rendering device, wherein the controller is further configured to render the current image with the selected peripheral outline superposed thereon using the rendering device. 12. A method for rendering a superposed image, the method performed by at least one controller of an interventional therapy system and comprising acts of: obtaining a reference image dataset of an object of interest (OOI); segmenting the reference image dataset to determine peripheral outlines of the OOI in the plurality image slices; acquiring a current image of the OOI using an ultrasound probe; selecting a peripheral outline of a selected image slice of the plurality of slices of the reference image dataset which is determined to correspond to the current image; deformably registering the selected image slice of the plurality of slices of the reference image dataset with the current image to obtain at least one deformation vector; and applying the at least one deformation vector to the selected peripheral outline of the selected image slice selected from the reference image and corresponding to the current image to obtain a modified peripheral outline of the OOI in the selected image slice of the reference image dataset that represents a most current estimated peripheral outline by modifying the selected peripheral outline of the image slice of the plurality of slices of the reference image dataset in accordance with at least one deformation vector without using any peripheral outline in the current image. 13. The method of claim 12 , further comprising an act of rendering, on a rendering device, the current image with the selected peripheral outline of the selected image slice of the plurality of slices of the reference image dataset superposed thereon. 14. The method of claim 12 , further comprising an act of obtaining, from at least one sensor, location information comprising at least one of a position and an orientation of the ultrasound probe when the current image was acquired. 15. A non-transitory computer readable medium comprising computer instructions which, when executed by at least one processor, configure the at least one processor to control an interventional therapy system to render a superposed image, to perform acts of: obtaining a reference image dataset of an object of interest (OOI); segmenting the reference image dataset to determine peripheral outlines of the OOI in the plurality image slices; acquiring a current image of the OOI using an ultrasound probe; selecting a peripheral outline f a selected image slice of the plurality of slices of the reference image dataset which is determined to correspond to the current image; deformably registering the selected image slice of the plurality of slices of the reference image dataset with the current image to obtain at least one deformation vector; and app