Patent application number | Description | Published |
20090190811 | Method and system for left ventricle endocardium surface segmentation using constrained optimal mesh smoothing - A method and system for left ventricle (LV) endocardium surface segmentation using constrained optimal mesh smoothing is disclosed. The LV endocardium surface in the 3D cardiac volume is initially segmented in a 3D cardiac volume, such as a CT volume, resulting in an LV endocardium surface mesh. A smoothed LV endocardium surface mesh is generated by smoothing the LV endocardium surface mesh using constrained optimal mesh smoothing. The constrained optimal mesh smoothing determines an optimal adjustment for each point on the LV endocardium surface mesh by minimizing an objective function based at least on a smoothness measure, subject to a constraint bounding the adjustment for each point. The adjustment for each point can be constrained to prevent adjustments inward toward the blood pool in order to ensure that the smoothed LV endocardium surface mesh encloses the entire blood pool. | 07-30-2009 |
20130004037 | METHOD FOR IMAGE GENERATION AND IMAGE EVALUATION - In a method for image generation and image evaluation in the medical field, raw data are generated by a selected medical modality, in particular a computed tomography scanner, depending on given modality parameters, and image data are generated from the raw data using an image reconstruction depending on given reconstruction parameters. The image data are evaluated by a given analysis application. Before acquiring the raw data, a secondary application automatically proposes a set of parameter values for the modality parameters and/or for the reconstruction parameters coordinated to the given analysis application and/or given patient information. | 01-03-2013 |
20130246034 | Method and System for Non-Invasive Functional Assessment of Coronary Artery Stenosis - A method and system for non-invasive assessment of coronary artery stenosis is disclosed. Patient-specific anatomical measurements of the coronary arteries are extracted from medical image data of a patient acquired during rest state. Patient-specific rest state boundary conditions of a model of coronary circulation representing the coronary arteries are calculated based on the patient-specific anatomical measurements and non-invasive clinical measurements of the patient at rest. Patient-specific rest state boundary conditions of the model of coronary circulation representing the coronary arteries are calculated based on the patient-specific anatomical measurements and non-invasive clinical measurements of the patient at rest. Hyperemic blood flow and pressure across at least one stenosis region of the coronary arteries are simulated using the model of coronary circulation and the patient-specific hyperemic boundary conditions. Fractional flow reserve (FFR) is calculated for the at least one stenosis region based on the simulated hyperemic blood flow and pressure. | 09-19-2013 |
20140058715 | Method and System for Non-Invasive Functional Assessment of Coronary Artery Stenosis - A method and system for non-invasive assessment of coronary artery stenosis is disclosed. Patient-specific anatomical measurements of the coronary arteries are extracted from medical image data of a patient acquired during rest state. Patient-specific rest state boundary conditions of a model of coronary circulation representing the coronary arteries are calculated based on the patient-specific anatomical measurements and non-invasive clinical measurements of the patient at rest. Patient-specific rest state boundary conditions of the model of coronary circulation representing the coronary arteries are calculated based on the patient-specific anatomical measurements and non-invasive clinical measurements of the patient at rest. Hyperemic blood flow and pressure across at least one stenosis region of the coronary arteries are simulated using the model of coronary circulation and the patient-specific hyperemic boundary conditions. Fractional flow reserve (FFR) is calculated for the at least one stenosis region based on the simulated hyperemic blood flow and pressure. | 02-27-2014 |
20140355857 | METHOD AND APPARATUS TO AUTOMATICALLY IMPLEMENT A SELECTION PROCEDURE ON IMAGE DATA TO GENERATE A SELECTED IMAGE DATA SET - In a method and apparatus to automatically generate a selected image data set from an entirety of medical measurement data of an examination subject, the entirety of the measurement data of the examination subject is received as input data, and at least a portion of the measurement data is automatically analyzed with regard to a number of specific, topologically representative content feature parameter values of the examination subject selected measurement data from the entirety is made, with the selected data associated with defined, specific, topologically representative content feature parameter values. The selected measurement data are assembled into a selected image data set, as output data. | 12-04-2014 |
20150085971 | METHOD AND SYSTEM FOR THE AUTOMATIC SELECTION OF A SCANNING PROTOCOL - A method is disclosed for automatically selecting a scanning protocol for a tomographic recording of an X-ray image of a patient in that at least one patient-specific value is retrieved in the internal memory of a first computer. The patient-specific value can in particular be a measure of the anticipated X-ray absorption by the patient. The method includes automatically comparing the patient-specific value with retrievably stored reference values, wherein one scanning protocol can be associated with each reference value. Finally, a scanning protocol is automatically selected by way of the first computer using the comparison. Selection is simplified by automation of selection of the scanning protocol since no manual selection of the scanning protocol has to be made. Automatic selection of a suitable scanning protocol is also quicker than a manual selection. | 03-26-2015 |
20150104092 | DETERMINING A VALUE OF A RECORDING PARAMETER BY USE OF AN ANATOMIC LANDMARK - A method and an imaging system are disclosed. The method, for determining at least one value of at least one recording parameter for a recording of an X-ray image of a patient positioned on an examination table, uses contactless scanning of at least part of the surface of the patient via at least one electromagnetic sensor, to calculate the three-dimensional contour of the scanned surface without additional exposure to radiation. At least one anatomic landmark of the patient can be identified using the three-dimensional contour, and the position of the anatomic landmark is determinable in the coordinate system of the table. The value of the recording parameter is determinable using the position of the anatomic landmark. The value of the recording parameter is determinable quickly and easily since contactless scanning of surfaces can be achieved quickly and easily in terms of technology. | 04-16-2015 |
20150117738 | CT SYSTEM WITH COMPUTER UNIT AND METHOD FOR RECONSTRUCTING AND DIAGNOSING VISUAL CT RENDERINGS - An embodiment of a CT system includes a computer unit and at least one memory device for storing program code and projection data records, established during a CT scan and usable for reconstructing CT renderings. The computer unit is connected in a networked system with at least one external diagnosis computer including a memory with program code for diagnosing reconstructed visual CT renderings. A method for reconstructing and diagnosing visual CT renderings is also disclosed. In an embodiment, a request for reconstructing a CT data record with a projection data record stored in the computer unit is received, sent from a diagnosis computer in a diagnosis station, by the computer unit of the CT system via the communications network; the computer unit recognizes this request; the computer unit automatically executes the requested reconstruction and the reconstructed CT rendering is transmitted to the requesting diagnosis computer via the communications network. | 04-30-2015 |