Patent application number | Description | Published |
20090198094 | APPARATUS AND COMPUTING DEVICE FOR PERFORMING BRACHYTHERAPY AND METHODS OF IMAGING USING THE SAME - An apparatus for determining a distribution of a selected therapy in a target volume is provided. A three-dimensional ultrasound transducer captures volume data from the target volume. A computing device is in communication with the three-dimensional ultrasound transducer for receiving the volume data and determining the distribution of the selected therapy in the target volume along a set of planned needle trajectories using the volume data. At least one of the needle trajectories is oblique to at least one other of the planned needle trajectories. | 08-06-2009 |
20100134517 | METHOD FOR AUTOMATIC BOUNDARY SEGMENTATION OF OBJECT IN 2D AND/OR 3D IMAGE - Segmenting the prostate boundary is essential in determining the dose plan needed for a successful bracytherapy procedure—an effective and commonly used treatment for prostate cancer. However, manual segmentation is time consuming and can introduce inter and intra-operator variability. This present invention describes an algorithm for segmenting the prostate from two dimensional ultrasound (2D US) images, which can be full-automatic, with some assumptions of image acquisition. Segmentation begins with the user assuming the center of the prostate to be at the center of the image for the fully-automatic version. The image is then filtered to identify prostate edge candidates. The next step removes most of the false edges and keeps as many true edges as possible. Then, domain knowledge is used to remove any prostate boundary candidates that are probably false edge pixels. The image is then scanned along radial lines and only the first-detected boundary candidates are kept the final step includes the removal of some remaining false edge pixels by fitting a polynomial to the image points and removing the point with the maximum distance from the fit. The resulting candidate edges form an initial model that is then deformed using the Discrete Dynamic Contour (DDC) model to obtain a closed contour of the prostate boundary. | 06-03-2010 |
20100319164 | COUNTERBALANCE ASSEMBLY - There is provided a mechanical arm assembly comprising: an arm rotatable about a pivot, a first force generating device for maintaining the arm at a datum, a second force generating device for compensating for the first generating device to maintain the arm in positions other than the datum. | 12-23-2010 |
20100324419 | ULTRASOUND IMAGING SYSTEM AND METHODS OF IMAGING USING THE SAME - A method of registering the position of an object moving in a target volume in an ultrasound imaging system includes capturing a first ultrasound image of a target volume. A second ultrasound image of the target volume is then captured after the capturing of the first ultrasound image. The position of the object in the target volume is identified using differences detected between the first and second ultrasound images. In another aspect, a region of interest in the target volume is determined. A segment of an operational scan range of a transducer of the ultrasound imaging system encompassing the region of interest is determined. The transducer is focused on the segment of the operational scan range during image capture. | 12-23-2010 |
20110299750 | 3D TISSUE MODEL FORMATION FROM NON-PARALLEL 2D IMAGES - Biopsy of the prostate using 2D transrectal ultrasound (TRUS) guidance is the current gold standard for diagnosis of prostate cancer; however, the current procedure is limited by using 2D biopsy tools to target 3D biopsy locations. We have discovered a technique for patient-specific 3D prostate model reconstruction from a sparse collection of non-parallel 2D TRUS biopsy images. Our method can be easily integrated with current TRUS biopsy equipment and could be incorporated into current clinical biopsy procedures for needle guidance without the need for expensive hardware additions. We have demonstrated the model reconstruction technique using simulated biopsy images from 3D TRUS prostate images of 10 biopsy patients. This technique of model reconstruction is not limited to the prostate, but can be applied to the reconstruction of any tissue acquired with non-parallel 2-dimensional ultrasound images. | 12-08-2011 |
20120004539 | ULTRASOUND IMAGING SYSTEM AND METHODS OF IMAGING USING THE SAME - A method of registering the position of an object moving in a target volume in an ultrasound imaging system includes capturing a first ultrasound image of a target volume. A second ultrasound image of the target volume is then captured after the capturing of the first ultrasound image. The position of the object in the target volume is identified using differences detected between the first and second ultrasound images. In another aspect, a region of interest in the target volume is determined. A segment of an operational scan range of a transducer of the ultrasound imaging system encompassing the region of interest is determined. The transducer is focused on the segment of the operational scan range during image capture. | 01-05-2012 |
20140121675 | APPARATUS FOR GUIDING A MEDICAL TOOL - There is provided a guide apparatus for orienting a medical tool relative to and through a remote fulcrum or remote center of motion. The guide apparatus may comprise: at least one crank arm comprising at least a portion of a first hinged coupling for hinged coupling to a stabilizer; at least one link arm comprising at least a portion of a second hinged coupling for hinged coupling to the crank arm at a location spaced from the first hinged coupling; a tool holder for supporting a medical tool on the link arm at a location spaced from the first hinged coupling; wherein the rotational axes of the first and second hinged couplings intersect to define a remote fulcrum. The guide apparatus may be configured to be an open-loop spherical chain or a closed-loop spherical chain. | 05-01-2014 |
20140135790 | SYSTEM AND METHOD FOR GUIDING A MEDICAL DEVICE TO A TARGET REGION - A device guiding apparatus comprises support framework, a counterbalance supported by the support framework at a position above a surface on which the support framework rests, and a manipulation assembly supported by the counterbalance. The manipulation assembly comprises at least one support assembly for supporting a medical device at a position intermediate the counterbalance and the surface such that a user has a direct line-of-site of the at least one support assembly. | 05-15-2014 |
20150018685 | ACTUATOR FOR MOVING AN ULTRASOUND PROBE - An actuator for an ultrasound probe comprises a housing assembly configured to accommodate an ultrasound probe and to be positioned adjacent to a target region of interest to be examined, and a motor assembly coupled to the housing assembly, the motor assembly configured to move the housing assembly in a manner to allow an ultrasound probe when accommodated by the housing assembly to perform a compound scan of the target region of interest. | 01-15-2015 |