Patent application number | Description | Published |
20080317315 | MAGNETIC RESONANCE SYSTEM AND METHOD FOR CORRECTION OF MOVEMENT ARTIFACTS - In a method and magnetic resonance (MR) for correction of movement in the acquisition of MR images of an examination region, wherein the movement that occurs between the acquisition of data of spatially different slices of the examination region is taken into account, data from the examination region are acquired in multiple slices that are acquired in at least two groups, with slices of a second group arranged at least partially between slices of the first group, such that at least one slice of the second group lies between slices of the first group. Correction for movement of the examination region that occurred between the acquisition of data of the slices of the first group and the acquisition of data of an intervening slice of the second group is done by reconstructing a reference data set for the intervening slice from acquired slice data of the first group for the movement correction. This reference data set is compared with data of the acquisition of the MR image of the intervening slice in order to determine and correct the occurred movement. | 12-25-2008 |
20090069668 | METHOD AND MAGNETIC RESONANCE SYSTEM TO OPTIMIZE MR IMAGES - In a method and magnetic resonance MR system for the optimization of angiographic MR images of an examination subject, in which arteries can be presented separately from veins in the angiographic magnetic resonance images, multiple MR overview images are acquired, with at least one imaging parameter being varied in the acquisitions of the MR overview images, at least one optimized imaging parameter is automatically calculated using a quality criterion, and the optimized imaging parameter is provided for the acquisition of the angiographic magnetic resonance images in which arteries can be shown separately from the veins. | 03-12-2009 |
20100079141 | MAGNETIC RESONANCE SYSTEM AND METHOD FOR CORRECTION OF DISTORTION DUE TO CONTINUOUS MOVEMENT OF PATIENT TABLE - In a method and magnetic resonance (MR) for reduction and correction of image distortions that occur in the generation of MR images of an examination subject that is arranged on a table that is continuously driven through the MR system during the generation of the MR images and whose cause is the acquisition of MR data of an image at varying positions within the MR system, raw MR data are acquired in multiple segments with radial filling of k-space with the raw data, an intersection region in the k-space center is determined that is covered by multiple segments given the radial filling of the raw data in k-space, and the distortions are automatically calculated based on the intersection region of at least two different segments. | 04-01-2010 |
20100237863 | METHOD AND DEVICE FOR CONTROLLING ACQUISITION OF MAGNETIC RESONANCE DATA IN A MAGNETIC RESONANCE APPARATUS - In a method and a device to control the workflow of an MR measurement in a magnetic resonance system, a predetermined volume segment is subdivided into parallel slices with a predetermined slice interval and measured with a continuous table feed. Apart from a start phase and an end phase of the MR measurement, multiple slices of the examination subject are excited and read out in every repetition of the underlying basic sequence, and these multiple slices are located in an active volume inside the magnetic resonance system. The number of slices excited and read out per repetition of the underlying basic sequence is selected automatically depending in particular on the parameters determining an image contrast and an image resolution, and thus cannot be freely set by a user of the magnetic resonance system. | 09-23-2010 |
20100237864 | MAGNETIC RESONANCE METHOD AND APPARATUS TO GENERATE AN IMAGE USING A PARALLEL ACQUISITION TECHNIQUE - In a magnetic resonance method and apparatus to generate images by a parallel acquisition technique an excitation pulse is radiated into an examination subject, and a first echo train is generated after the excitation pulse, wherein the first echo train densely scans a segment of k-space to be scanned for an acquisition of coil calibration data. Coil calibration data are acquired by means of the first echo train. The acquired coil calibration data are stored in a coil calibration data set. A second echo train is generated after the same excitation pulse, wherein the second echo train undersamples a segment of k-space to be scanned for an acquisition of image data. Image data are acquired by means of the second echo train. The acquired image data are stored in an incomplete image data set. An image data set is generated by substituting data missing in the incomplete image data set due to the undersampling by means of a selected PAT reconstruction technique using the coil calibration data. | 09-23-2010 |
20100237865 | MAGNETIC RESONANCE METHOD AND APPARATUS TO GENERATE AN IMAGE USING A PARALLEL ACQUISITION TECHNIQUE - In a magnetic resonance a method and apparatus to generate images by a parallel acquisition technique, a first echo train is generated after a first excitation pulse, wherein the first echo train sufficiently densely scans a segment of k-space to be scanned for an acquisition of coil calibration data. Coil calibration data are acquired by means of the first echo train after the first excitation pulse. The acquired coil calibration data are stored in a coil calibration data set. A second echo train is generated after a second excitation pulse, wherein the second echo train undersamples a segment of k-space to be scanned for an acquisition of image data. Image data are acquired by means of the second echo train after the second excitation pulse. The acquired image data are stored in an incomplete image data set. An image data set is generated by substituting data missing in the incomplete image data set due to the undersampling by means of a selected PAT reconstruction technique using the coil calibration data. The first echo train and the second echo train are generated by an identical sequence technique such that each echo train has a series of echoes, with a time interval of the echoes of a series of the first echo train being shorter than a time interval of the echoes of a series of the second echo train. | 09-23-2010 |
20100264924 | MAGNETIC RESONANCE METHOD AND APPARATUS WITH DISPLAY OF DATA ACQUISITION PROGRESS FOR A SUBJECT CONTINUOUSLY MOVING THROUGH THE APPARATUS - In a method and magnetic resonance apparatus to display progress of the acquisition of measurement data of an examination region of an examination subject during continuous travel of the examination region through a magnetic resonance apparatus, a current projection image is calculated on the basis of current measurement data acquired from central k-space during the continuous travel of the examination region, and the currently calculated projection image is displayed. By the calculation of the projection images on the basis of measurement data from central k-space, this calculation can ensue particularly quickly and with little effort. A particularly fast display of the projection images is therefore possible. A projection image can be calculated particularly quickly and simply from measurement data along a central k-space line—i.e. a k-space line that runs through the center of k-space—using a one-dimensional Fourier transformation along this central k-space line. | 10-21-2010 |
20100264925 | MAGNETIC RESONANCE METHOD AND APPARATUS FOR ACQUIRING MEASUREMENT DATA FROM A SUBJECT CONTINUOUSLY MOVING THROUGH THE APPARATUS - In a method and apparatus for the acquisition of measurement data of an examination region of an examination subject (in particular a patient) during continuous travel of the examination region through a magnetic resonance apparatus for the generation of an image data set, the continuous travel is interrupted and resumed at least once. The examination region is moved back by a predeterminable distance counter to the travel direction of the continuous travel before interrupting the continuous travel. Moving the examination region back makes it possible to interrupt and resume an acquisition of measurement data given (otherwise) continuous travel of the examination region, without loss of measurement data. The time during the interruption can be used advantageously for preparation of an acquisition of measurement data in the portion of the examination region of the patient that is to be examined after the interruption of the continuous travel. In particular, during the interruption a patient can be prepared to hold his or her breath for an acquisition of additional measurement data that follows the interruption. The continuous travel can be interrupted arbitrarily often. | 10-21-2010 |
20100289493 | METHOD AND DEVICE TO CONTROL A WORKFLOW OF AN MR MEASUREMENT IN A MAGNETIC RESONANCE SYSTEM - In a method and a device to control a workflow of an MR measurement in a magnetic resonance system, MR signals from multiple slices of a predetermined volume segment of an examination subject are acquired, multiple slices with a continuous table feed. In the MR measurement, one of these multiple slices in the active volume of the magnetic resonance system is repeatedly measured in succession at different measurement positions P | 11-18-2010 |
20110031971 | CONTRAST AGENT-FREE MR ANGIOGRAPHY WITH SSFP SEQUENCES - In a method to generate an MR angiography image of an examination region of a subject without the use of contrast agent, a first MR image of the examination region is acquired with a first imaging sequence in which a gradient-induced phase development for unmoved and moved spins is essentially completely rephased at the end of a repetition interval TR, and a second MR image of the examination region is acquired with a second imaging sequence in which the gradient-induced phase development for unmoved spins is likewise essentially completely rephased at the end of the repetition interval TR and a rest phase φ | 02-10-2011 |
20110130644 | METHOD TO ACQUIRE MEASUREMENT DATA OF A BREATHING EXAMINATION SUBJECT BY MAGNETIC RESONANCE TECHNOLOGY, AND ASSOCIATED COMPUTER PROGRAM - A method for the acquisition of measurement data of a breathing examination subject by magnetic resonance includes the following steps: (a) detect the physiological breathing signal of the examination subject with a breathing signal detection unit, (b) evaluate the detected breathing signal in an evaluation unit, (c) based on the evaluated breathing signal, calculate in a computer at least one parameter affecting the type of acquisition of measurement data by means of magnetic resonance, (d) detect a current physiological breathing signal with the breathing signal detection unit, (e) compare the last detected breathing signals with at least one trigger condition, (f) initiate the acquisition of measurement data using the calculated parameter from step (c) upon satisfaction of the trigger conditions from step (e), (g) repeat the steps (d) through (f) until all desired measurement data have been acquired, and (h) store and/or process the acquired measurement data in a memory and/or processing unit. After the evaluation of the detected breathing signal, at least one parameter of a following acquisition of measurement data is thus determined automatically without an input by an operator of the MR apparatus in use being required. | 06-02-2011 |
20110152668 | METHOD TO DETECT A BREATHING MOVEMENT OF AN EXAMINATION SUBJECT CORRESPONDING TO SIGNAL DATA BY MAGNETIC RESONANCE - In a method for the detection of signal data corresponding to a breathing movement of an examination subject by means of magnetic resonance (MR) first and second data sets are loaded, that each include complex k-space data acquired with a navigator sequence from a common excitation volume of the examination subject. The first and second data sets are processed to identify breathing movement at the acquisition time of at least one of the data sets, by comprising a transformation of the data sets in Cartesian space and calculating a phase difference between respective complex data pointes of the data sets having the same spatial position. The processing result is stored together with a time value that depends on a point in time of the acquisition of the first data set and/or the second data set. The data acquisition, processing and storage are repeated until a series of results has been stored that maps a breathing movement of interest, and in repetition at least one of the two data sets is acquired at a different point in time than the last two data sets. | 06-23-2011 |