Patent application number | Description | Published |
20080273664 | X-Ray Device with Scattered-Beam Suppression - The invention relates to an X-ray device with an X-ray radiation source and with a preferably digital detector, which is placed in the beam path of the radiation source behind the object, particularly behind a patient. Scattered-rays are suppressed by means of a scanning device that scans the object and the detector only in sections. During a half-scanning process, the X-ray image is composed of half images, one image half being faded out. | 11-06-2008 |
20100027867 | Method for creating mass density images on the basis of attenuation images captured at different energy levels - The invention relates to a method for creating scatter-corrected mass density image in dual energy X-ray absorptiometry. The mass density image is created using additional information provided by attenuation images at different energy levels in an inhomogeneous correction image area. A multi-dimensional mass density is found that is consistent for a plurality of the attenuation images by inverting a primary radiation function. A scatter fraction is determined on the basis of the multi-dimensional mass density. | 02-04-2010 |
20100053203 | Contrast Increase in X-Ray Projection Images and/or in Tomographically Reconstructed Volumes by Deconvolution of the Projection Images - The invention relates to a method and a device for increasing contrast in medical images generated by an imaging system featuring an x-ray source and a detector. The detector detects x-rays of the x-ray source and converts image signals from the x-rays. The image signals are transferred to a control and processing unit for processing. Deconvolution of the image signals is carried out by application of an inverse modulation transfer function modified by a regularization. At least a volume image can be reconstructed from the deconvolved image signals. | 03-04-2010 |
20100303203 | RADIATION SOURCE, IMAGING SYSTEM, AND OPERATING METHOD TO DETERMINE AND PRODUCE A RADIATION FOCAL SPOT HAVING AN ASYMMETRICAL POWER INPUT PROFILE - A radiation source for a radiation-based image acquisition device has an electron emitter to generate a focal spot for x-ray generation at a rotating anode. An arrangement is provided to generate an asymmetrical power input profile of the focal spot parallel to the movement direction of the rotating anode. | 12-02-2010 |
20100303208 | METHOD FOR RECORDING AN X-RAY IMAGE, X-RAY DETECTOR AND X-RAY SYSTEM - To obtain a high-quality X-ray image from X-ray detectors with defective pixels, an X-ray image of an object is recorded by an active pixel matrix of an X-ray detector from at least two partial X-ray images, in which a first partial image is recorded from picture elements in a first position and at least one second partial image is recorded from picture elements in a second position of the pixel matrix, wherein the pixel matrix has at least one defective pixel at a defect site and the positions are selected such that
| 12-02-2010 |
20110013747 | Method for Operating an X-Ray Image Recording Device Having a Moveable X-Ray Detector on the X-Ray C-Arm - A method for operating an x-ray image recording device having a movable x-ray detector on an-x-ray c-arm is provided. The x-ray C-arm supports an x-ray source and the x-ray detector which can be moved in the direction of the x-ray source. A variable is calculated which specifies the image quality of an x-ray image to be obtained in a position of the x-ray C-arm in a position of the x-ray detector and/or specifies the exposure dose of an operating person. A measure is taken as a function of the variable which results in a movement of the x-ray detector by the operating person and/or by an automatic movement. X-ray images are recorded in positions of the x-ray detector in which the image quality and/or the exposure dose of an operating person are optimal. | 01-20-2011 |
20110274245 | METHOD AND X-RAY SYSTEM FOR PROCESSING AN X-RAY IMAGE - To improve the quality of x-ray images, IN a method to process an x-ray image, a mathematical correction of the x-ray image is implemented, wherein the correction at least partially removes from the x-ray image the locally dependent blurring caused by a projection direction-dependent, effective optical focus size of an x-ray tube used to acquire the x-ray image. | 11-10-2011 |
20110280370 | METHOD FOR OBTAINING HIGH-CONTRAST X-RAY IMAGES AND X-RAY BEAM DETECTOR - An X-ray radiation detector ( | 11-17-2011 |
20110299658 | X-RAY RADIATOR TO GENERATE QUASI-MONOCHROMATIC X-RAY RADIATION, AND RADIOGRAPHY X-RAY ACQUISITION SYSTEM EMPLOYING SAME - For a quasi-monochromatic x-ray radiation with high radiation intensity, an x-ray radiator generates quasi-monochromatic x-ray radiation to expose a subject from a point-shaped radiation source that emits a polychromatic x-ray radiation, and having a diffraction device to diffract the polychromatic x-ray radiation. The diffraction device has a super-mirror made of crystalline material with a flat surface. In the super-mirror, the crystalline material has at least one (in particular continuous) variation of the lattice plane spacing of the crystal lattice. The radiation source and the diffraction device are arranged such that quasi-monochromatic x-ray radiation is generated from the polychromatic x-ray radiation by partial reflection at the super-mirror. | 12-08-2011 |
20110317815 | Method for Visualizing a Patient Dose, Computer Program Product and X-Ray Apparatus - A method for visualizing a dose of X-ray radiation applied to a surface of a patient in a defined time period by an X-ray apparatus is proposed. The X-ray apparatus is adjustable to different angular positions. A model of the surface of the patient is provided. The dose of X-ray radiation applied to the surface of the patient in the defined time period is calculated. The model and the calculated dose on the model is visualized. The visualization of the model and the calculated dose on the model is effected in an angular position coupled to the angular position in which the X-ray apparatus is currently disposed. | 12-29-2011 |
20120223239 | RADIATION DETECTOR, IN PARTICULAR X-RAY RADIATION DETECTOR - A radiation detector, in particular an X-ray radiation detector, in the form of a flat-panel detector, may comprise a scintillator layer applied to a substrate and comprising elongated needles made from a scintillator material forming the scintillator layer, and an actively readable pixel array composed of photodiodes, wherein the thickness of the scintillator layer may be in the range of 900 μm-2500 μm, and wherein the angle at which the needles stand relative to the pixel array, starting from 90° in the center of the detector, may decrease with increasing distance from the center of the detector. | 09-06-2012 |
20120300905 | Method for obtaining image data with the aid of an x-ray image recording apparatus having a filter and an x-ray image recording apparatus - A method to optimally set a position of a form filter in an x-ray image recording apparatus is proposed. The x-ray image recording apparatus has an x-ray radiation source and an x-ray radiation detector. An x-ray image is firstly recorded in a first position of the form filter. A new position of the filter is then calculated and automatically set with the aid of the x-ray image. A new x-ray image is then recorded. With a minimal dose of a patient, the method enables low contrast images to be recorded for a minimal main dose of the patient, in particular in a sequence. | 11-29-2012 |
20120314839 | Method for Acquiring X-Ray Images - A buffer on detector elements of an X-ray radiation detector can be used, when acquiring a number of 2D X-ray image data records with the aid of an X-ray angiography system, to acquire 2D image data records at a relatively short interval one after the other with the aid of different X-ray spectra, to allow dual-energy imaging, which may be of particularly good quality. | 12-13-2012 |
20130216021 | METHOD AND SYSTEM UNIT FOR STEREOSCOPIC X-RAY IMAGING - A method for stereoscopic x-ray imaging by a stereoscopic x-ray tube and by an x-ray radiation detector is provided. The x-ray radiation detector has a buffer. The stereoscopic x-ray tube has two x-ray beam sources disposed a short distance from one another. 2D image datasets are acquired at relatively short intervals one after the other, which have good quality. | 08-22-2013 |
20130301807 | Adaptive X-Ray Filter - An adaptive X-ray filter for varying a local intensity of X-ray radiation includes a first chamber containing a magnetorheological or electrorheological first liquid, a second chamber containing a second liquid that absorbs X-ray radiation, and a flexible membrane that separates the first chamber from the second chamber. Using the flexible membrane, a layer thickness ratio of the first liquid and the second liquid may be varied. A heating apparatus that heats the second liquid is arranged in the adaptive X-ray filter. The second liquid is a liquid metal. | 11-14-2013 |
20140294148 | X-RAY RECORDING SYSTEM FOR X-RAY IMAGING AT HIGH IMAGE FREQUENCIES OF AN OBJECT UNDER EXAMINATION BY WAY OF DIRECT MEASUREMENT OF THE INTERFERENCE PATTERN - An x-ray recording system is disclosed for x-ray imaging of an object under examination by way of direct measurement of an interference pattern, especially for differential, real-time capable phase-contrast imaging. In at least one embodiment, the system includes with at least one x-ray emitter for creating quasi-coherent x-ray radiation; an x-ray image detector, including a detector layer and detector pixels arranged in a matrix; and a diffraction or phase grating, disposed between the object under examination and the x-ray image detector, configured to create an interference pattern, directly detectable in the nth Talbot order by an x-ray image detector with a very high achievable local resolution, which amounts to at least half the wavelength of the interference pattern in accordance with the Nyquist theory arising in the nth Talbot order. | 10-02-2014 |
20150031986 | MEDICAL INSTRUMENT FOR USE WITH A PHASE CONTRAST IMAGING AND X-RAY RECORDING SYSTEM WITH PHASE CONTRAST IMAGING - A medical instrument is provided for use with a phase contrast imaging. The medical instrument includes at least one component, which has a strong small angle scattering of x-rays. Furthermore, a corresponding x-ray recording system with phase contrast imaging for recording an examination object may include such a medical instrument. | 01-29-2015 |