Jattke
Andreas Jattke, Hannover DE
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20120126092 | RELEASE AGENT FOR PRODUCING MOLD COATINGS - The present invention relates to a refractory coating for producing mold coatings by application to inorganically or organically-bound molding materials in lost molds or to cores for iron and steel casting, wherein the ready-to-use refractory coating has proportion by weight of 0.001% or more and less than 1% of inorganic hollow bodies, which partially or fully consist of crystalline material and have a softening point of 1000° C. or higher. | 05-24-2012 |
Andreas Stefan Jattke, Hannover DE
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20140102657 | REFRACTORY COATING FOR PRODUCING MOLD COATINGS - A refractory coating for producing mold coatings by application to inorganically or organically-bound molding materials in lost molds or to cores for iron and steel casting is disclosed. The refractory coating can have a proportion by weight of 0.001% or more and less than 1% of inorganic hollow bodies, which partially or fully consist of crystalline material and have a softening point of 1000° C. or higher. | 04-17-2014 |
Kirstin Jattke, Nuremberg DE
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20140153804 | METHOD FOR EVALUATING IMAGE DATA RECORDS - In an embodiment of a method, a PET image data record, a functional magnetic resonance image data record and a morphological magnetic resonance image data record, the spatial resolution of which is better than that of the functional magnetic resonance image data record, of the target area are recorded with the combination image recording facility, whereby a center of the target structure is localized in the PET image data record. The center is transmitted to the functional magnetic resonance image data record, based on the center the target structure is segmented in the functional magnetic resonance image data record, the segmentation of the target structure in the functional magnetic resonance image data record is transmitted to the morphological magnetic resonance image data record and is improved there within the scope of a fine segmentation. | 06-05-2014 |
20140336498 | MEDICAL IMAGING SYSTEM HAVING A MAGNETIC RESONANCE IMAGING UNIT AND A POSITRON EMISSION TOMOGRAPHY UNIT - A medical imaging system includes a magnetic resonance imaging unit including a magnet unit and a patient receiving area surrounded by the magnet unit, wherein the magnet unit includes a main magnet, a gradient coil unit and a radio-frequency antenna unit. In at least one embodiment, the medical imaging system further includes a positron emission tomography unit including at least two positron emission tomography detector modules. The at least two positron emission tomography detector modules each include a detector surface. Further, the radio-frequency antenna unit is disposed outside an area disposed between an examination area and the detector surfaces. | 11-13-2014 |
20140336499 | METHOD FOR CREATING A DETAILED ATTENUATION VALUE MAP FOR A LIMITED BODY REGION - A method, medical imaging device and computer program product are disclosed for creating a detailed attenuation value map for a limited body region of a patient for a positron emission tomography examination. In an embodiment, the method includes an acquisition of first attenuation value data from a first attenuation value measurement of the limited body region; an ascertainment of at least one mean attenuation value based upon the first attenuation value data for the limited body region; an acquisition of second attenuation value data from a second attenuation value measurement of the limited body region; an ascertainment of local correction values based upon the second attenuation value data for the limited body region; and a determination of the detailed attenuation value map for the limited body region based upon the at least one mean attenuation value and based upon the local correction values. | 11-13-2014 |
Kirstin Jattke, Nuernberg DE
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20140296697 | METHOD FOR DISPLAYING SIGNAL VALUES OF A COMBINED MAGNETIC RESONANCE POSITRON EMISSION TOMOGRAPHY DEVICE AND A CORRESPONDINGLY EMBODIED MAGNETIC RESONANCE POSITRON EMISSION TOMOGRAPHY DEVICE - A method, a computer program product and a computer-readable storage medium are disclosed for displaying signal values of a combined magnetic resonance positron emission tomography device. In at least one embodiment, the spatial correspondence of signal values, which result from a magnetic resonance measurement, and of signal values, which result from a positron emission tomography measurement, are used and the corresponding signal values are arranged in matrix form and displayed graphically as a multi-dimensional scatter plot. | 10-02-2014 |
20150025359 | METHOD FOR EVALUATION AND COMPARISON OF A CHRONOLOGICAL SEQUENCE OF COMBINED MEDICAL IMAGING EXAMINATIONS AND ALSO A MEDICAL IMAGING SYSTEM WHICH IS DESIGNED FOR EXECUTING THE INVENTIVE METHOD - A method is disclosed for evaluating and comparing a chronological sequence of at least two combined medical imaging examinations, wherein a combined medical imaging examination is carried out in each case by way of a first imaging apparatus and by way of a second imaging apparatus which is formed by a Positron Emission Tomography apparatus. On the basis of the image data captured by the first imaging apparatus, a transformation specification is created and this is applied to the image data captured by the Positron Emission Tomography apparatus, so that a direct comparison of the first and second image data captured by way of the Positron Emission Technology apparatus is made possible. | 01-22-2015 |
20150051476 | METHOD FOR AN EVALUATION OF FIRST IMAGE DATA OF A FIRST IMAGING EXAMINATION AND SECOND IMAGE DATA OF A SECOND IMAGING EXAMINATION AND ALSO A MEDICAL IMAGING SYSTEM WHICH IS DESIGNED FOR CARRYING OUT THE METHOD - A method is disclosed for an evaluation of first image data of a first imaging examination and second image data of a second imaging examination on a patient. In an embodiment, the method includes a provision of first image data of the first imaging examination captured by way of a first imaging apparatus; a provision of second image data of the second imaging examination captured by way of a second imaging apparatus; a determination of first dynamic data on the basis of the first image data as a function of a time; a determination of second dynamic data on the basis of the second image data as a function of a time; and a determination of correlated data of a correlation of the first dynamic data with the second dynamic data. | 02-19-2015 |