Abstract: Techniques are described for detecting a specified substance in an examination object by way of a magnetic resonance apparatus. A controller ascertains a magnetic resonance sequence comprising at least one sub-sequence for detecting at least one substance to be detected in the examination object as a function of the at least one substance to be detected, and ascertains at least one measuring instant for capturing a respective MRT signal to detect the at least one substance to be detected in the examination object as a function of the at least one substance to be detected. The at least one MRT signal is evaluated for fulfillment of a predetermined detection condition, and a presence of the at least one substance to be detected is established when the at least one MRT signal fulfils the predetermined detection condition.

Abstract: A method for actuating a track conditioning unit or a wheel flange lubricating system of a rail vehicle. The track conditioning unit provides auxiliary agent to sub-regions of a rail on which the rail vehicle is travelling, in order to increase friction between the wheel and the rail. A wheel flange lubricating system provides a fluid to a wheel sub-region of the rail vehicle or to a rail sub-region, in order to reduce friction between the wheel and the rail. A relative movement between a railcar body and a bogie of the rail vehicle is detected using path measurement, in order to detect a bend in the track. Based on the path measurement, the track conditioning unit or the wheel flange lubricating system is actuated in a targeted manner according to the bend, such that the auxiliary agent or fluid is applied in a resource-saving yet effective manner.

Abstract: A system for standardized MRI examinations with patient-centric scan workflow adaptations including: a protocol management system for setup and/or to maintain scan programs and/or scan protocols centrally; a scan queue designed to provide a representation of past and planned scan workflow steps; and a scan workflow guidance system which is configured to use a preconfigured scan protocol and/or scan program by patient specific adaptions.

Abstract: An adjustment device for a track conditioning unit has a measuring unit for determining a lateral offset of a rail, travelled on by a rail vehicle, relative to an effective range of a track conditioning unit or a measuring unit for determining the relative position of a bogie with respect to the rail car body. The adjustment device contains a determining unit for determining an actuation command for an actuation unit in accordance with the determined lateral offset between the effective range of the track conditioning unit and the rail. Part of the adjustment device for the track conditioning unit is also an actuation unit for actuating an actuator unit of the track-conditioning unit with an adjustment command which is generated on the basis of the actuation command. The actuator unit adjusts an effective range of the track conditioning unit on the basis of the adjustment command.

Abstract: In a method for displaying quantitative magnetic resonance image data, and a processor, and a magnetic resonance (MR) apparatus that implement such a method, first quantitative MR image data of an examination object are provided to the processor, the first quantitative MR image having been obtained using an MR scanner with a first basic magnetic field strength. The first quantitative magnetic resonance image data are converted in the processor from the first basic magnetic field strength to a second basic magnetic field strength, thereby generating second quantitative MR image data, which are then displayed.

Abstract: A method of acquiring magnetic resonance imaging (MRI) data from an MRI scan of an object includes generating a number of excitation sequences by, in order: generating an excitation pulse, generating an imaging magnetic field gradient, and generating a spoiler magnetic field gradient. MRI data is acquired during the generation of the spoiler magnetic field gradients. The spoiler magnetic field gradients are selected such that, during each excitation sequence, substantially the same k-space trajectory is traversed during the generation of the spoiler magnetic field gradient.

Abstract: In a first aspect, the invention relates to the use of a UV-polymerizable composition as an embedding medium for biological samples. The UV-polymerizable composition is a composition with a refractive index ranging from n=1.45 to n=1.6 after a polymerization process. In another aspect, the invention relates to a method for producing embedded biological samples using said UV-polymerizable composition and to the embedded biological samples themselves. The biological samples can be used in a wide variety of areas, such as diagnostics among others, and are suitable in particular for RNA-based diagnostics.

Abstract: A system for generating medical image scanner configurations includes a scanner configuration database and a simulation component. The database stores a scanner configuration dataset corresponding to a medical image scanner. The simulation component includes a display module which is configured to present a graphical user interface (GUI) utilized by the medical image scanner, and an editing module which is configured to create a modified scanner configuration dataset based on commands received from a user via the GUI. Additionally, the simulation component includes a simulation module which is configured to (i) perform a simulation of the medical image scanner using the modified scanner configuration dataset to yield simulated results, (ii) use the display module to present the simulated results in the GUI, and (iii) in response to receiving user approval of the simulated results via the GUI, save the modified scanner configuration dataset to the database.

Abstract: A chassis for a rail vehicle includes a chassis frame supported on at least first and second wheelsets and one A-frame linkage per wheelset on both sides of the chassis for horizontal axle guidance of the wheelset. Each A-frame linkage is connected in an articulated manner to one of two axle bearings of a wheelset by a wheelset-side bearing and to the chassis frame by two frame-side bearings. At least one of the bearings per A-frame linkage has a hydraulic bushing with variable longitudinal rigidity. The hydraulic bushing has at least one fluid chamber fillable with hydraulic fluid so that in the fluid chamber a hydraulic pressure can form for adjusting longitudinal rigidity. An acceleration sensor per axle bearing measures wheelset acceleration and an adjustment device adjusts hydraulic pressure in at least one of the fluid chambers depending on the measured wheelset acceleration.

Abstract: In a method and apparatus for recording a magnetic resonance dataset of at least one foreign body in a target region of a patient, a magnetic resonance sequence having an ultra-short echo time, which is less than 500 ?s is used for recording the magnetic resonance data.

Abstract: A chassis for a rail vehicle, in particular for a locomotive. A chassis frame is supported on first and second wheel sets and one triangular link per wheel set on both sides of the chassis for horizontally guiding the axle of the wheel set. An A-arm is hinged to one of two axle bearings by a wheel set-side bearing and by two frame-side bearings. The latter have elastomer bushings with a constant longitudinal and transverse rigidity. The former have hydraulic bushings with constant transverse rigidity and variable longitudinal rigidity. The bearings of each A-arm are arranged on the corners of a horizontal isosceles triangle. The tip of the triangle forms the wheel set-side bearing and the base forms the frame-side bearings. This resolves the conflicting objectives between dynamic running behaviors of the chassis when cornering and the driving stability when traveling straight ahead at a high speed.

Abstract: A method of acquiring magnetic resonance imaging (MRI) data from an MRI scan of an object includes generating a number of excitation sequences by, in order: generating an excitation pulse, generating an imaging magnetic field gradient, and generating a spoiler magnetic field gradient. MRI data is acquired during the generation of the spoiler magnetic field gradients. The spoiler magnetic field gradients are selected such that, during each excitation sequence, substantially the same k-space trajectory is traversed during the generation of the spoiler magnetic field gradient.

Abstract: The invention relates to a device for examining samples (1) in a liquid (5), comprising a movable shaft (2), to which the sample (1) is fastened, and a cuvette (4), wherein the device further comprises a bath (3), which surrounds the movable shaft (2), and wherein the bath (3) is fillable with the liquid (5), the movable shaft (2) is configured to receive the sample (1) at the upper side (24) thereof, the movable shaft (2) reaches into the cuvette (4) from below, wherein said cuvette is open at least toward the bottom and configured to be immersed into the liquid (5) in the bath (3) with the underside thereof, and, moreover, means are provided to generate a pressure difference between the interior of the cuvette (4) and the region outside of the cuvette (4) such that the fill level (21) of the liquid (5) in the cuvette (4) is adjustable. Moreover, the invention relates to a method for examining samples (1) in a liquid (5).

Abstract: In a method and apparatus for acquiring a magnetic resonance imaging dataset of an area to be examined of a patient by magnetic resonance data are acquired over a prespecified acquisition period which has been fixed for the acquisition process. This acquisition period is divided into a number of sub-periods. For each sub-dataset of the magnetic resonance data acquired by undersampling in a sub-period, at least one motion value describing the motion status of the area to be examined is determined, and the data subsets to be used for the reconstruction of the magnetic resonance imaging dataset are selected in dependence on the motion values in order to minimize motion artifacts.

Abstract: A control facility of a magnetic resonance system receives parameters of a measuring sequence from an operator. The parameters define an activation of a gradient system of the magnetic resonance system. The control facility detects an exposure of at least one body region of the examination object brought about by the activation of the gradient system. The exposure is detected as a function of the position in which the examination object is disposed in an examination volume of the magnetic resonance system.

Abstract: In a method and magnetic resonance apparatus for segmenting image data of an examination object, raw data of the examination object are achieved with the operation of a magnetic resonance scanner. Quantitative image data of the examination object are then calculated in a processor from the raw data. At least one physical variable of the examination object is quantitatively ascertained pixelwise and is displayed. The quantitative image data are segmented for identification of predetermined objects in the quantitative image data, and displayed in a display unit.

Abstract: In a method and magnetic resonance apparatus for establishing at least one measurement protocol of a magnetic resonance measurement of an examination object, the measurement parameters necessary for the magnetic resonance measurement of the examination object are set, at least one absorption variable according to the measurement parameters set is established, and at least one measurement protocol is established that includes further measurement parameters according to the established at least one absorption variable. A characteristic variable can be established that indicates the ability to carry out the at least one measurement protocol according to the at least one established absorption variable.

Abstract: A household appliance includes a housing surrounding an accommodation space and a door pivotable relative to the housing between a closing state in which the door closes a loading opening of the accommodation space and an opening state in which the door is retracted into a stowing area in the housing. A guide device is coupled to the door to guide the door during movement into and out of the stowing area. The guide device includes a bearing unit configured as a multi-articulated device which is mounted for rotation about an axis of rotation and includes guide elements. The multi-articulated device is configured such that a distance of the guide elements from one another and/or a distance of at least one of the guide elements to the axis of rotation is changeable depending on a position of the door.

Abstract: A domestic appliance includes a housing having an accommodating space and a door arranged pivotably to the housing so as to be movable to a closed state in which a loading opening of the accommodating space of the housing is closeable and an opened state in which the door is lowered in a stowage space in the housing. A guiding device is coupled to the door to guide a movement of the door into and out of the stowage space. The guiding device includes a supporting unit which is mounted for rotation about an axis of rotation and includes a supporting bracket, and guiding elements which are mounted rotatably on the supporting bracket. The supporting bracket has a displacement slot defined by a varying radius and configured to rotate the supporting bracket about the axis of rotation with a rotational movement which deviates from a segment of a circular path.

Abstract: In a method for displaying quantitative magnetic resonance image data, and a processor, and a magnetic resonance (MR) apparatus that implement such a method, first quantitative MR image data of an examination object are provided to the processor, the first quantitative MR image having been obtained using an MR scanner with a first basic magnetic field strength. The first quantitative magnetic resonance image data are converted in the processor from the first basic magnetic field strength to a second basic magnetic field strength, thereby generating second quantitative MR image data, which are then displayed.