Abstract: A method for recording magnetic resonance image data of a patient ventilated by means of a ventilation apparatus is provided. The method includes assigning influencing information describing the effect of a respiratory movement on the image data recording to pulse sequence information, determining a magnetic resonance protocol for actuating a magnetic resonance device and a ventilation protocol for actuating the ventilation apparatus, and coordinating with one another in time, taking into account the pulse sequence information together with the influencing information, an imaging objective and a ventilation requirement, and actuating the magnetic resonance device and the ventilation apparatus in a time-coordinated manner on the basis of the magnetic resonance protocol and the ventilation protocol.

Abstract: The present invention relates to an improved process for producing a biodegradable and/or absorbable silica sol material which is advantageous especially with regard to the reproducibility of the material, the rapidity of the synthesis and the possibility of being able to produce the silica sol material on an industrial scale. A further subject matter of the invention relates to a biodegradable and/or absorbable silica sol material which can be produced by the synthesis process according to the invention.

Abstract: A radiotherapy treatment device comprising an image acquisition device, in particular a magnetic resonance device, an irradiation device comprising in particular a linear accelerator, and a patient positioning device having a patient positioning platform, wherein a movement device is provided for jointly moving the image acquisition device and the irradiation device between an irradiation position, in which a radiotherapeutic treatment of a patient located on the patient positioning platform is possible by means of the irradiation device, and an image acquisition position, in which an image acquisition of the patient located on the patient positioning platform is possible by means of the image acquisition device is provided. A radiotherapy method for treating an irradiation target in a patient by means of such a radiotherapy treatment device is also disclosed.

Abstract: Device for mounting flexible, profiled hollow cylinders onto cylindrical elements. Profiled hollow cylinders which are mounted onto a cylindrical element form excellent modules for irradiating fluid media with electromagnetic radiation.

Abstract: Method for flow coating a polymeric material, wherein at least a. one component (1) is inserted at an angle of 25° to 90° relative to the floor (5) into a holder (2), b. the component (1) is coated from an upper edge (1a) with a varnish (3) and the varnish (3) is, in the meantime or thereafter, impinged on within a region of 30% of the surface of the component (1) adjacent the upper edge (1a) by a stream of air (4).

Abstract: In a method and system for planning a brachytherapy treatment, magnetic resonance image data of a patient are acquired by operating a magnetic resonance scanner according to a magnetic resonance sequence that designates an examination volume. An area of the patient is positioned in the examination volume such that the magnetic resonance image data contain at least a part of at least one applicator for the brachytherapy, which is located in the patient. The magnetic resonance sequence includes measurement parameters that lead to a contrast between the at least one applicator and surrounding tissue in the magnetic resonance image data. The position of the at least one applicator in the magnetic resonance image data is extracted, and a radiation treatment plan is created using the extracted position of the at least one applicator.

Abstract: A method is disclosed for visualizing a lymph node in a volume section of an examination subject by way of a combined MR/PET apparatus and to a correspondingly embodied combined MR/PET apparatus. The method includes acquisition of PET data of the volume section by way of a positron emission detector in order to record on the basis of the PET data a metabolic activity per PET voxel within the predetermined volume section; acquisition of MR data of the volume section by way of a magnetic resonance system in order to record on the basis of the MR data a lymph-node-specific contrast per region of the predetermined volume section; and generation of an image as a function of the metabolic activity recorded per PET voxel and as a function of the lymph-node-specific contrast recorded per region, abnormal lymph nodes being visualized in the image as distinguishable from normal lymph nodes.

Abstract: A method for determining electrical conduction path information in a chamber wall of a ventricle of a patient is provided. A three-dimensional magnetic resonance image data set is recorded showing the ventricles using a recording technology which allows an assignment of an electrical conductivity to a voxel based on the magnetic resonance image dataset. The chamber wall is segmented in the magnetic resonance image dataset. Conductivity determined from the image data is assigned to sub-regions of the chamber wall corresponding to individual voxels of the magnetic resonance image dataset. A model of the chamber wall is created as a function of the conductivities and segmentation. A conduction path information item is determined describing an electrical conduction path running from a start point to a destination point through the chamber wall in the model.

Abstract: A method is disclosed for determining analysis information supporting a user assessing the effect of a biological agent on the treatment of a rheumatic disease. The method includes, subsequent to starting the administration of the biological agent: recording a first morphological magnetic resonance imaging record of at least one target joint using a first magnetic resonance sequence; recording a second magnetic resonance imaging record showing the blood flow through the target joint by perfusion imaging using a second magnetic resonance sequence; determining at least a first measuring parameter related to the morphology of the joint by analysis of the first magnetic resonance imaging record and at least a second measuring parameter describing the blood flow in the target joint by analysis of the second magnetic resonance imaging record; and automatic determination of the analysis information from the first and the second measuring parameter.

Abstract: A pillar covering for motor vehicles is described The pillar covering has a carrier part having an integrated window guide web and a mounting element, a narrowing at the point of contact of the window guide web with the carrier part, and a cover part connected to the carrier part via a contact surface, whereby the carrier part and the cover part form at least one common end portion and the contact surface within the end piece runs over a length of at least 1 mm at a mean angle of 5° to 60° above or below a mean axis along the contact surface outside the end piece.

Abstract: The present embodiments relate to a method and a local coil arrangement for a magnetic resonance tomography system. The local coil arrangement includes an antenna element for the reception of signals from an object under examination. The local coil arrangement also includes an A/D converter for the conversion of analog signals received with the antenna element into digitized signals, and a memory configured for the storage of the digitized signals.

Abstract: In a method for recording a magnetic resonance image with a magnetic resonance device, in which several projection image data records are recorded in succession with different gradient orientations, from which, through back projection, the magnetic resonance image is reconstructed, the recording of a projection data record in a recording time frame proceeds with a temporal frequency modulated excitation pulse of a pulse duration, wherein, through the frequency modulation of the excitation pulse, all spins to be recorded within the scope of the projection data record are excited in a temporal sequence and wherein the frequency modulation function describing the frequency modulation during the pulse duration exhibits at least one maximum and/or at least one minimum. During the excitation duration, a time-resolved reception signal is detected. The projection data record is determined from the reception signal through evaluation.

Abstract: In a method for determining the ventilation of a lung of an object under examination by magnetic resonance imaging, at least two first lung-representing image data sets are acquired at different intervals of the breathing phase. The density change of the lung tissue is automatically determined from the signal difference between the image signals of the first image data sets in at least one corresponding region of the first lung-representing image data set. The lung or the thorax volume is automatically determined using at least two of the first image data sets, or using at least an additional second lung-representing image data set in a breathing phase that corresponds with the breathing phase of a first image data set. The localized, quantitative ventilation of the lung is automatically calculated depending on the density change of the lung tissue and the change of the lung or thorax volume.

Abstract: The present embodiments relate to a magnetic resonance system for carrying out magnetic resonance measurements in an intraoral region. The magnetic resonance system includes a magnetic resonance coil element and an intraoral measuring device that measures the position of a number of measuring points situated in the intraoral region.

Abstract: In a method and device to evaluate an examination of an examination subject with a medical imaging apparatus, an examination data set of the examination subject is imported into the evaluation device. A reference data set is associated with the imported examination data set, wherein the reference data set includes at least one reference region. At least one examination region of the examination data set is established by the evaluation device using the at least one reference region of the reference data set. The establishment of the at least one examination region of the examination data set can include a selection of at least one image of the examination data set; a marking of the at least one examination region in at least one image of the examination data set; and a segmentation of the at least one examination region in at least one image of the examination data set.

Abstract: Method for flow coating a polymeric material, wherein a. at least one component (1) is inserted at an angle of 25° to 90° relative to the floor (5) into a holder (2), and b. the component (1) is coated from the upper edge (1a) with a varnish (3), containing 10 wt.-% to 30 wt.-% of 4-methyl-2-pentanone and/or derivatives thereof.

Abstract: 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.

Abstract: A local coil for magnetic resonance applications receives analog magnetic resonance signals excited by an excitation signal in an examination object using a plurality of receive antennas. The local coil digitizes the received analog magnetic resonance signals and stores the digitized magnetic resonance signals in digital form in a write-in sequence in an internal local coil memory. The local coil reads the digitized magnetic resonance signals stored in the internal local coil memory out of the internal local coil memory in a read-out sequence that is different from the write-in sequence and transfers the digitized magnetic resonance signals to a control and evaluation device of a magnetic resonance unit.

Abstract: A magnetic resonance apparatus for examination in THE teeth and/or jaw region of a patient has at least one basic magnet to generate a constant basic magnetic field. The basic magnet is formed at least in part from at least one magnetic coil pair with at least two magnetic coils, and the at least one magnetic coil pair generates the basic magnetic field with a homogeneous magnetic field region between the at least two magnetic coils thereof.

Abstract: A method for image acquisition is disclosed. In an embodiment, the method includes acquiring, by a first imaging method, first image data of an object to be examined; acquiring, by a second imaging method, second image data of the object to be examined; generating an image file, the file format of which allows different logical layers of image data to be stored, in such a manner that the image file generated contains the acquired first image data in a first logical layer in the intended layer format and the acquired second image data in a second logical layer.