Patent application number | Description | Published |
20120237100 | METHOD FOR PROCESSING MAGNETIC RESONANCE IMAGES AND APPARATUS FOR PROCESSING MAGNETIC RESONANCE IMAGES - In an embodiment, a method is disclosed which includes: carrying out interpolation by using a slice away from a slab boundary, and substituting a slice having slab boundary artifacts existing in the slab boundary, to obtain an interpolated image; carrying out Fourier transform on the interpolated image to generate first K-space data; carrying out Fourier transform on the original image to generate second K-space data; merging the first K-space data with the second K-space data, wherein the weight of the first K-space data is greater than that of the second K-space data in the middle of the K-space, and the weight of the second K-space data is greater than that of the first K-space data at the edge of the K-space; and carrying out inverse Fourier transform on the merged K-space data. | 09-20-2012 |
20120310078 | METHOD FOR AN IMAGE DATA ACQUISITION - A method for an image data acquisition with a magnetic resonance device that has a display unit includes acquisition of at least one overview measurement with at least one image data set, evaluation of the at least one image data set, generation of information of a slice geometry, graphical presentation of the information of the slice geometry along at least one slice plane, and acquisition of image data regarding a medical and/or diagnostic question and/or examination. | 12-06-2012 |
20130009640 | MAGNETIC FIELD INSENSITIVE CEST IMAGING - In a method for accelerated CEST imaging in magnetic resonance tomography, RF pulses for the saturation of the protons of the substance to be shown are emitted by several transmission coils, and shape of these RF pulses is calculated using an optimization method so that a weighted sum is minimized, the sum exhibiting at least two of the following norms: the norm of the magnetization of free water protons in each point in space, the norm of the deviation of the magnetization of the bound protons from an inverted magnetization in each point in space and the norm of the magnetization of protons with an inverted shift relative to the predefined frequency shift in each point in space. The shape of the RF pulses for subsequent excitation of the free water protons also can be calculated for the optimization method. | 01-10-2013 |
20130023754 | METHOD AND MAGNETIC RESONANCE APPARATUS FOR IMAGE DATA ACQUISITION - In a magnetic resonance method and apparatus wherein the magnetic resonance device has a movable patient bed, in a first overview measurement, a first image data record of a patient is acquired, and patient information and/or information of a treatment region of a patient is/are determined from the acquired first image data record. In a second overview measurement, dependent on the patient information and/or on the positioning information of the treatment region of the first image data record, a second image data record is acquired. In a planning step a layer planning for the image data acquisition is implemented from the acquired second image data record. Image data for a medical and/or diagnostic issue and/or examination are recorded. The first image data record of the first overview measurement is recorded with a lower spatial resolution than a spatial resolution of the second image data record of the second overview measurement. | 01-24-2013 |
20130033263 | METHOD AND MAGNETIC RESONANCE SYSTEM FOR ACQUIRING MAGNETIC RESONANCE DATA IN A PREDETERMINED REGION OF AN EXAMINATION SUBJECT - In a method and a magnetic resonance system to acquire MR data in a predetermined region within an examination subject, a first three-dimensional volume segment is selectively excited with an RF excitation pulse, this first volume segment including the predetermined region and having a first thickness along a first thickness direction. A selective refocusing pulse is activated in order to selectively refocus a second volume segment. The second volume segment likewise includes the predetermined region and has a second thickness along a second thickness direction orthogonal to the first thickness direction. | 02-07-2013 |
20130099785 | METHOD AND MAGNETIC RESONANCE APPARATUS TO ACQUIRE MR DATA IN A PREDETERMINED THREE-DIMENSIONAL VOLUME SEGMENT OF A SUBJECT - Acquisition of magnetic resonance (MR) data in a predetermined three-dimensional volume segment of an examination subject with an MR apparatus proceeds by the volume segment being excited with an RF excitation pulse, and repeated, temporally sequential implementation of the following in order to respectively read out an echo train:
| 04-25-2013 |
20130169275 | MAGNETIC RESONANCE IMAGING METHOD AND MAGNETIC RESONANCE IMAGING DEVICE - A magnetic resonance imaging method and imaging device are disclosed. The magnetic resonance imaging method includes dividing the current slab of an imaging region into an initial number of detection sub-slabs, and expanding the encoded thickness of each detection sub-slab according to a predetermined initial expansion factor, subjecting each expanded detection sub-slab to deformation detection using the first fast spin echo sequence, and determining the position of each imaging sub-slab of the current slab and an expansion factor corresponding to each imaging sub-slab, wherein the readout gradient of the first fast spin echo sequence is applied in the direction of the slice selection gradient, expanding the encoded thickness of each imaging sub-slab of the current slab of the imaging region on the basis of the determined position of each imaging sub-slab and the corresponding expansion factor, and performing an imaging scan of each expanded imaging sub-slab using a second fast spin echo sequence. | 07-04-2013 |
20130197352 | Holder for Double Loop Coil for MCP Images - A holder for a local coil for an imaging system such as a magnetic resonance tomography (MRT) hand coil holder is provided. The MRT hand coil holder has recesses in side parts of the holder. A hand of a patient may be positioned between the side parts. The recesses in the side parts of the holder are each configured to accommodate at least one local coil. | 08-01-2013 |
20130211241 | Local Coil System - A local coil system having two loop coils is used for recording, for example, small joints in magnetic resonance tomography. | 08-15-2013 |
20130249550 | METHOD AND MAGNETIC RESONANCE SYSTEM TO ACQUIRE MR DATA IN A PREDETERMINED VOLUME SEGMENT OF AN EXAMINATION SUBJECT - In a method and a magnetic resonance (MR) system, a marked area is determined that demarcates a predetermined volume segment of the subject relative to the regions adjacent thereto. Nuclei in the predetermined volume segment are excited, or nuclei in a region adjacent thereto are saturated with an RF excitation pulse at the same time a magnetic field gradient is activated. The center frequency of a frequency range of the RF excitation pulse and the direction of the magnetic field gradient are adjusted dependent on resonant frequencies of substances present within the predetermined volume segment in order, starting from the predetermined volume segment to shift an actual excitation volume segment excited by the RF excitation pulse toward the marked area, or to shift a saturation volume saturated by the RF excitation pulse away from the marked area. MR data are then acquired from the predetermined volume segment. | 09-26-2013 |
20130335077 | TEST OF A REORDERING ALGORITHM OF A SPIN ECHO MAGNETIC RESONANCE PULSE SEQUENCE - A test method for a reordering algorithm of a 3D spin echo magnetic resonance pulse sequence is provided, in which echo train positions are checked for at least two k-space elements. Further, a non-transitory computer readable medium and a magnetic resonance tomography system which comprises a test device for testing a reordering algorithm of a 3D spin echo magnetic resonance pulse sequence featuring a checking module for checking the echo train position for at least two k-space elements are provided. | 12-19-2013 |
20130335082 | METHOD AND MAGNETIC RESONANCE SYSTEM TO ACQUIRE MR DATA IN A PREDETERMINED VOLUME SEGMENT - In a method and magnetic resonance (MR) system to acquire MR data in a predetermined volume segment of an examination subject, the data are acquired with at least one echo train that includes at least two signal echoes. The same number of echoes is acquired for each echo train of the at least one echo train, with this number of echoes corresponding to an echo train length. The total number of echoes that are required to acquire the MR data and the echo train length is adapted so that the total number corresponds to a whole number multiple of the echo train length. | 12-19-2013 |
20130342202 | MAGNETIC RESONANCE SYSTEM AND OPERATING METHOD FOR FLOW ARTIFACT REDUCTION IN SLAB SELECTIVE SPACE IMAGING - In a SPACE (Sampling Perfection with Application optimized Contrasts using different flip angle Evolutions) or equivalent magnetic resonance imaging pulse sequence, the readout dephasing gradient is generated (activated) so as to occur immediately in front of the second refocusing pulse, thereby eliminating the long time duration that occurs in conventional SPACE or equivalent sequences between excitation and readout. This long time duration has been identified as a source for flow-related artifacts that occur in images reconstructed from data acquired according to conventional SPACE or equivalent sequences. By eliminating this long time duration, such flow-related artifacts are substantially reduced, if not eliminated. | 12-26-2013 |
20140028313 | METHOD AND APPARATUS TO ACQUIRE MAGNETIC RESONANCE DATA - In a method and apparatus to acquire magnetic resonance data in a selected region of an examination subject without aliasing artifacts and with a reduced acquisition time, a spatially selective excitation pulse is radiated into the examination subject to excite nuclear spins in at least the selected region, and after radiating the excitation pulse, a series of at least two refocusing pulses is radiated into the examination subject, which generate variable flip angles adapted to a predetermined signal curve. At least the second refocusing pulse, and possibly every additional one of the refocusing pulses of this series, is a non-selective pulse. The spin echo signals generated by the refocusing pulses are acquired as magnetic resonance data. Gradients for spatial coding are activated before and after the spatially selective excitation pulse, the refocusing pulses and during the data acquisition. The acquired magnetic resonance data are stored and/or converted into image data for display. | 01-30-2014 |
20140028314 | METHOD AND APPARATUS FOR ACQUISITION OF MAGNETIC RESONANCE DATA WHILE AVOIDING SIGNAL INHOMOGENEITIES - In a method and apparatus for the acquisition of magnetic resonance data while avoiding signal inhomogeneities, an excitation pulse is radiated into the examination subject, and following a first time period thereafter, a first refocusing pulse is radiated into the examination subject. After a second time period after the radiation of the first refocusing pulse, a series of at least two additional refocusing pulses is radiated that generate variable flip angles adapted to a predetermined signal curve and that are non-selective pulses. Spin echo signals generated by the radiated pulses are acquired as magnetic resonance data. Gradients are activated for spatial coding. The center frequency of at least one of the radiated refocusing pulses is adjusted such that it is between the resonance frequency of fat molecules and the resonance frequency of water molecules in the examination subject in the magnetic resonance system. | 01-30-2014 |
20140028315 | METHOD AND APPARATUS TO GENERATE A COMPLETE MAGNETIC RESONANCE IMAGE DATA SET TO BE DISPLAYED - In a method, device and magnetic resonance system to generate a complete image data set to be displayed using a Dixon technique that separates at least two material types (in particular water and/or fat) in magnetic resonance data, after the determination of a first image data set associated with the first material type and the determination of a second image data set associated with the second material type, the first and second image data sets are combined to form a complete image data set depending on at least one weighting parameter. | 01-30-2014 |
20140035579 | METHOD AND APPARATUS FOR ACQUISITION OF MAGNETIC RESONANCE DATA - In a method and magnetic resonance system for the acquisition of magnetic resonance data in a selected region of an examination subject, magnetic resonance data are acquired more than once using a magnetic resonance system, magnetic resonance data are acquired more than once from a selected partial region the portion of k-space filled with data corresponding to the selected region of the subject, and the multiply acquired magnetic resonance data are processed into a data set, the aforementioned partial region is selected so as to be located decentrally in k-space, meaning that it is asymmetrical relative to the center of k-space. | 02-06-2014 |
20140049258 | Automated Spectral Fat Saturation - A method includes recording a magnetic resonance (MR) spectrum with the aid of a high frequency (HF) coil and a magnetic resonance tomography (MRT) device. A static magnetic field results in a recording volume of the MRT device. The method also includes an automatic analysis of the MR spectrum by searching for two resonant signals in the form of a fat peak, a water peak, and a minimum between the fat peak and the water peak. Such an automatic analysis is used for an automatic decision as a function of a predeterminable criterion, as to whether a series, including a plurality of acts, or a single act is performed. The homogeneity of the static magnetic field is adjusted with the aid of at least one shim coil of the MRT device, and an HF pulse is calculated for fat saturation as a function of the result of the search. | 02-20-2014 |
20140062478 | MAGNETIC RESONANCE SYSTEM, AND DEVICE AND METHOD FOR CONTROL THEREOF - In a method for controlling a magnetic resonance system with multiple radio-frequency transmission channels, via which parallel RF pulse trains are emitted in operation, as well as a magnetic resonance system and a pulse optimization device therefor, RF pulse trains respectively include at least one radio-frequency pulse. The RF pulse trains are initially determined so that a minimum B | 03-06-2014 |
20140077802 | METHOD AND CONTROL DEVICE TO CONTROL A MAGNETIC RESONANCE SYSTEM - A method and control device operate a magnetic resonance system in order to execute a first pulse sequence that includes an excitation phase and an acquisition phase. In the excitation phase, a first gradient is applied in a gradient direction to generate a spatially dependent basic magnetic field. A selective radio-frequency excitation pulse is executed, wherein the selective radio-frequency excitation pulse excites a first material and does not excite a second material in a first partial region of an examination volume, and wherein the selective radio-frequency excitation pulse does not excite the first material and excites the second material in a second partial region of the examination volume. In the acquisition phase, non-selective refocusing pulses are executed in order to acquire raw data of the first and second partial region of the examination volume, which acquisition is spatially coded along the gradient direction. | 03-20-2014 |
20140197837 | Application of a Multichannel Coil for Hand Imaging - A method and a local coil for a magnetic resonance imaging (MRI) system are provided. The local coil includes a hand coil having a plurality of rings, each made of a plurality of coil elements. | 07-17-2014 |
20140300352 | METHOD TO ENTER MAGNETIC RESONANCE DATA INTO A MEMORY ORGANIZED AS k-SPACE, AND MAGNETIC RESONANCE APPARATUS OPERATING ACCORDING TO THE METHOD - In a method to associate k-space lines with echo trains of raw magnetic resonance data, parallel k-space lines orthogonally intersect a plane at respective intersection points. Each echo train has a trajectory length, and the k-space lines are associated with the echo trains such that a sum of trajectory lengths of all echo trains is minimal. The trajectory length TL of an echo train is defined by | 10-09-2014 |
20140306705 | Operation of a Magnetic Resonance Apparatus with a Plurality of Transmission Antennas - A sequence of a plurality of pulses following one another in time is applied to an examination volume of a magnetic resonance apparatus using a plurality of transmission antennas. In order to transmit the respective pulse, the plurality of transmission antennas are actuated using a specific transmission signal by a control device of the magnetic resonance apparatus. The transmission signals have predetermined phase and amplitude relationships to one another. The phase and amplitude relationships of a first pulse of the sequence S differ from the phase and amplitude relationships of a second pulse of the sequence. | 10-16-2014 |
20140320127 | METHOD AND DEVICE FOR DETERMINATION OF A MAGNETIC RESONANCE CONTROL SEQUENCE - In a method and device for the determination of a magnetic resonance control sequence that includes at least one first pulse arrangement that acts in a spatially selective manner in a first selection direction and a subsequent second pulse arrangement that acts in a spatially selective manner in a second selection direction, viewing volume dimension parameter values are registered that define the spatial extent of a viewing volume to be excited. The first selection direction and the second selection direction are established automatically depending on a length ratio of the spatial extent of the viewing volume to be excited in the different selection directions. | 10-30-2014 |
20140320128 | METHOD AND MAGNETIC RESONANCE APPARATUS TO ACQUIRE IMAGE DATA SETS OF AN EXAMINATION SUBJECT - In a magnetic resonance method and apparatus to image data sets of an examination subject by operation of the magnetic resonance apparatus, after detecting a region of the examination subject that is relevant to the examination, a coil element from each of two coil units is selected depending on the detected region, and acquisition of the image data sets of the examination subject takes place with the use of the selected coil elements. The selection of the coil elements of the coil units can be based on information about a position of a slice of a volume of the examination subject, and the position of the slice can be determined automatically using reference measurements. | 10-30-2014 |
20140333303 | MAGNETIC RESONANCE APPARATUS AND METHOD FOR RF EXCITATION WITH TWO RESONANCE FREQUENCIES TO DETECT THE CEST EFFECT - In a magnetic resonance apparatus and method for RF excitation with two resonance frequencies to detect the CEST effect, the RF excitation is achieved with the use of a first RF antenna and a second RF antenna of the magnetic resonance apparatus with a first portion of the RF excitation at a first resonance frequency of the two resonance frequencies being implemented with the first RF antenna, and a second portion of the RF excitation at a second resonance frequency of the two resonance frequencies is implemented with the second RF antenna. | 11-13-2014 |
20150022205 | Automatic Local Coil Isocentering - A magnetic resonance imaging system includes a control unit configured to (a) compare a plurality of magnitudes of a field of a coil of a local coil, wherein each magnitude of the plurality of magnitudes is measured at a different time; and (b) determine, based on on a comparison result, whether to stop or advance a position adjustment apparatus of the patient couch of the magnetic resonance imaging system. | 01-22-2015 |
20150022207 | METHOD AND MAGNETIC RESONANCE APPARATUS TO ACQUIRE MR DATA AND TO RECONSTRUCT AN MR IMAGE - In a method to operate a magnetic resonance (MR) system to acquire MR data, an RF excitation pulse is radiated followed by repeated, chronologically sequential implementation of the following steps in order to respectively acquire the MR data of an echo train. A refocusing pulse is radiated, a phase coding gradient is activated, and an additional magnetic field gradient for spatial coding is activated in a direction that is orthogonal to the direction of the phase coding gradient in order to read out the MR data of a k-space line. A k-space line in the k-space center is acquired at a predetermined echo time. A first half of k-space is acquired by entering data into k-space lines of the respective echo train, the data being acquired before the echo time. A second half of k-space is acquired by entering data into k-space lines of the respective echo train, this data having been acquired after the echo time. The k-space lines in the first half of k-space have a first density while the k-space lines in the second half of k-space have a second density that differs from the first density. | 01-22-2015 |
20150061673 | CONTROL UNIT AND METHOD TO MONITOR A DATA ACQUISITION OF MAGNETIC RESONANCE IMAGE DATA - In a control method and control unit to monitor a data acquisition of magnetic resonance image data of an imaging area located in a measurement volume of a magnetic resonance apparatus, an RF excitation pulse is radiated by an RF transmission/reception device of the magnetic resonance apparatus, raw data are acquired after a time after the radiated excitation pulse, by means of the RF transmission/reception device, and store the raw data, the raw data are transmitted to a monitoring unit and (a) through (c) are repeated while switching different gradients for spatial coding by readout of k-space corresponding to the imaging area along trajectories that are predetermined by the switched gradients, up to a termination criterion that is predetermined by the monitoring unit. | 03-05-2015 |
20150071519 | METHOD AND IMAGING APPARATUS TO AUTOMATICALLY DISPLAY AND/OR MEASURE BONE VARIATIONS IN MEDICAL IMAGE DATA - In a method and apparatus to automatically display and/or measure bone variations in medical image data, an image data set of an examination region is acquired and the bone regions in the image data set are automatically segmented in a first segmentation followed by a second segmentation in which bone variation regions in the image data set are automatically segmented on the basis of the results of the first segmentation. The results of the first and/or second segmentations are stored and/or displayed. | 03-12-2015 |
20150084626 | METHOD FOR DETERMINING A POSITION-DEPENDENT ATTENUATION MAP OF HIGH-FREQUENCY COILS OF A MAGNETIC RESONANCE PET DEVICE - A method is disclosed for determining a position-dependent attenuation map of at least one high frequency coil of a combined magnetic resonance PET device. A magnetic resonance PET device and a computer program product are also disclosed. The method includes determining at least one first signal frequency for at least one coil element during a magnetic resonance PET examination; determining at least one second signal frequency, wherein at least one gradient field is applied during determination thereof; reconstructing the position of the at least one coil element using the at least one first and second signal frequency; reconstructing the position of the at least one high frequency coil using the reconstructed position of the at least one coil element; and determining a position-dependent attenuation map of the at least one high frequency coil using the reconstructed position of the at least one high frequency coil. | 03-26-2015 |