Patent application number | Description | Published |
20080205723 | Utilizing Physiological Models to Control Functional Acquisitions - Adaptively controlling an imaging system ( | 08-28-2008 |
20080294038 | Model-Based Flow Analysis and Visualization | 11-27-2008 |
20080300588 | Automating the Ablation Procedure to Minimize the Need for Manual Intervention - Cardiac ablation is automated to require minimal user intervention, to thereby reduce X-ray exposure to staff and patients, increase patient throughput, simplify ablation and make ablation more precise. Steering between ablation points on the heart is automatic by use of a localizer system ( | 12-04-2008 |
20080319309 | System, Apparatus, and Method for Repreoducible and Comparable Flow Acquisitions - A system, apparatus and method are provided for measuring and removing the influence of pulsatility on contrast agent flow in a region of interest of a vascular system of a patient. Once the change of blood speed over the cardiac cycle is known (pulsatility), this influence is removed from acquired image sequence for outcome control such that “quasi-stationary”, regular flow acquisition is passed on to subsequent visualization and analysis processes. A contrast agent injector is also provided that simultaneously measures and uses ECG to inject a known contrast agent at a fixed point over the cardiac cycle or such that a known amount of contrast agent will arrive at a known time at a region of interest in the vasculature of a patient, thus controlling one of the main unwanted variables in an acquisition of blood flow sequences. | 12-25-2008 |
20090116715 | MOTION-COMPENSATED CORONARY FLOW FROM PROJECTION IMAGING - Diagnostic angiograms only provide the projected lumen of a coronary, which is only an indirect measure of blood flow and pressure decline. According to an exemplary embodiment of the present invention, a motion compensated determination of a flow dynamics and a pressure decline for stenosis grading is provided, in which the motion compensation is performed on the basis of a tracking of a first position of a first marker and a second position of a second marker in the projection data set. This may provide for a robust and precise flow dynamics and pressure decline determination. | 05-07-2009 |
20090310842 | MODEL-BASED DETERMINATION OF THE CONTRACTION STATUS OF A PERIODICALLY CONTRACTING OBJECT - It is described a model-based estimation of the current contraction status (S) of a periodically contracting object such as a beating heart. Thereby, a characteristic feature that is directly related to the contraction status (S) is extracted from a current image ( | 12-17-2009 |
20100217116 | SYSTEM AND METHOD FOR VISUALIZING HEART MORPHOLOGY DURING ELECTROPHYSIOLOGY MAPPING AND TREATMENT - Systems and methods for facilitating visual detection of one or more catheter tips in relation to the morphology of an anatomical structure—in real-time—are provided. The disclosed systems and methods are particularly useful for locating reference catheters relative to heart tissue using an automated navigation support that draws upon prominent image features that are visible in the x-ray fluoroscopy images. According to exemplary embodiments, prominent features include one or more catheter tips of reference catheter(s) that are typically placed at known standard positions in relation to the anatomical structures. Based on the noted prominent features, the systems and methods of the present disclosure are effective in achieving alignment of the anatomical structures, e.g., the heart morphology, with the interventional devices, e.g., ablation catheter(s) introduced by the physician, and generating a fused or overlaid image. Advantageous computer software products are also disclosed. | 08-26-2010 |
Patent application number | Description | Published |
20120321156 | MOTION VISUALISATION IN ANGIOGRAPHIC IMAGES - A method and an apparatus for motion visualization of a moving object in angiographic images are described. In a preferred embodiment of the method, first a mask image of the object of interest is acquired and a sequence of angiographic images of the object in different phases of motion of the object is acquired. Then, a first angiographic subtraction image and at least a second angiographic subtraction image are generated by subtracting the angiographic images from the mask image. Subsequently, a twice subtracted image is generated by subtracting the first angiographic subtraction image from the second angiographic subtraction image. In this way a double subtraction, i.e. a twice subtracted angiography is performed, to facilitate the assessment of the motion. | 12-20-2012 |
20130028494 | IMAGE ANALYSING - A flow pattern in a tube system is calculated from acquired image data. From the flow pattern virtual image data are generated and compared with the acquired data in order to determine a quality measure for the usability of the generated flow pattern at characteristic locations. | 01-31-2013 |
20140306918 | INTERACTING WITH A THREE-DIMENSIONAL OBJECT DATASET | 10-16-2014 |
20150025364 | APPARATUS AND METHOD FOR VISUALIZING A CONDUCTION TRACT OF HEART - The invention relates to an apparatus, a method and a computer program for visualizing a conduction tract of a heart. In order to provide a visualization which is helpful in avoiding or finding the conduction tract in, for example, an invasive procedure like ablation of heart tissue, a generic heart model is adapted to geometrical data of the patient's heart, wherein model data indicating a shape and/or position of the conduction tract is modifying in accordance to the adaptation. The modification of the model data is further refined based on electrophysiological data and the refined model is used for generating a visualization. | 01-22-2015 |