Abstract: In a method for the implementation of a medical examination via the user interface of at least one imaging device, parameter values in a group of measurement parameters are determined, and are entered via an input device of the user interface. Spatially resolved image information are generated by the at least one imaging device depending on the group of measurement parameters, and the image information is stored on a storage medium. The image information are presented as a data symbol on a screen of the user interface. In order to present the parameters and dependencies to enable a more efficient work process, each measurement parameter of the group of measurement parameters is respectively presented on the screen in a measurement parameter cell of a matrix with multiple rows and multiple columns. The measurement parameters can be contained at least in part in multiple measurement parameter cells.

Abstract: A method and system for fully automatic segmentation the prostate in magnetic resonance (MR) image data is disclosed. Intensity normalization is performed on an MR image of a patient to adjust for global contrast changes between the MR image and other MR scans and to adjust for intensity variation within the MR image due to an endorectal coil used to acquire the MR image. An initial prostate segmentation in the MR image is obtained by aligning a learned statistical shape model of the prostate to the MR image using marginal space learning (MSL). The initial prostate segmentation is refined using one or more trained boundary classifiers.

Abstract: A patient support apparatus is provided. The patient support apparatus has a patient table, a movable support plate for supporting a patient, a guide unit, which is designed to guide the support plate along at least one movement direction of the support plate, and a fastening unit for fastening an auxiliary unit to the support plate. The fastening unit has at least one setting unit for setting the position of the auxiliary unit in relation to the support plate in a flexible manner.

Abstract: A method is disclosed for determining attenuation values for PET data of a patient. In at least one embodiment, the method includes detecting at least one accessory of a magnetic resonance imaging scanner and detecting the position and/or alignment of the accessory by way of an imaging measuring method; comparing the detected accessory with data from a database; and assigning an attenuation map, which is contained in the database, to attenuation values of the detected accessory and adapting the attenuation map to the detected position and/or alignment of the accessory.

Abstract: In a method and magnetic resonance apparatus to assist a person in the alignment of a medical instrument used by the person to conduct a minimally invasive procedure with the instrument introduced into a patient at an entrance point in a predetermined orientation, within the patient receptacle of a magnetic resonance device, measurement data are acquired with the magnetic resonance device to determine a current orientation of the instrument and/or an instrument guide, and the measurement data are evaluated to determine the current orientation. A deviation of the current orientation from the predetermined orientation is determined, and at least one acoustic signal is emitted depending on the deviation to assist the person in orienting the instrument.

Abstract: Automatic prostate localization in T2-weighted MR images facilitate labor-intensive cancer imaging techniques. Methods and systems to accurately segment the prostate gland in MR images are provided and address large variations in prostate anatomy and disease, intensity inhomogeneities, and artifacts induced by endorectal coils. A center of the prostate is automatically detected with a boosted classifier trained on intensity based multi-level Gaussian Mixture Model Expectation Maximization (GMM-EM) segmentations of the raw MR images. A shape model is used in conjunction with Multi-Label Random Walker (MLRW) to constrain the seeding process within MLRW.

Abstract: In a method and a magnetic resonance system to show an object that is introduced into an examination region, the object having a known chemical shift relative to tissue that is predominant in the examination region, magnetic resonance signals are acquired from the examination region of the subject with the introduced object therein, and the different chemical shift of the introduced object and of the predominant tissue is computationally used in a processor to calculate, from the acquired magnetic resonance signals, a localization image in which substantially only the introduced object is shown.

Abstract: A method and system for detecting lymph nodes in multiple complementary magnetic resonance (MR) sequences is disclosed. Anatomical landmarks, such as blood vessels, are extracted in a first MR sequence, such as an MR angiography (MRA) image. A search area is defined in at least one second MR sequence, such as a T1 weighted VIBE image, based on the anatomical landmarks extracted the first MR sequence. Lymph nodes are then detected in the search area of the second MR sequence. The lymph nodes can be detected by segmenting the search area into homogenous regions and determining whether each region is a lymph node using feature analysis.

Abstract: In a method for contrast agent-free magnetic resonance colonography, blood that flows into the bowel tissue is prepared automatically by radio-frequency pulses. Magnetic resonance data of the bowel are acquired while the prepared blood is located in the bowel, and a magnetic resonance image of the bowel is created from the magnetic resonance data. Bowel tissue regions and regions with bowel content are differentiated automatically on the basis of an increased contrast (caused by the preparation) between perfused tissue regions and regions of the gut lumen that are not perfused.

Abstract: In a method for marking a predetermined guide path of a medical instrument in particular a needle, at least one guide path having an angle relative to vertical is indicated by means of at least one adjustable indicator unit such as a light source, and a one-dimensional or two-dimensional inclination sensor is used to adjust the at least one indicator unit with regard to the angle relative to vertical.

Abstract: A tip of an elongate device is navigated into a particular tissue volume in order to examine the particular tissue volume in a body and part of the tissue volume is analyzed in real-time by way of a biosensor. In at least one embodiment, in the process, either the biosensor can be arranged on the tip of the device or the device includes a catheter, by which a substance to be analyzed is transported out of the tissue volume from the tip to the biosensor arranged at the proximal end of the catheter.

Abstract: In a method and magnetic resonance device for graphically assisting the navigation of an instrument (in particular a medical instrument such as a needle and/or a guide sleeve guiding a needle) within a procedure region of a target subject (in particular a patient), coordinates of a target position and/or target region to be addressed that are obtained from a high-contrast image data set acquired with the magnetic resonance device. Low-contrast image data showing the instrument are acquired continuously and/or intermittently during the navigation and/or the position and orientation of the instrument is determined (in particular measured) with a position determination device. The low-contrast image later are brought into registration with the magnetic resonance device continuously and/or intermittently during the navigation.

Abstract: In a method for image guided prostate cancer needle biopsy, a first registration is performed to match a first image of a prostate to a second image of the prostate. Third images of the prostate are acquired and compounded into a three-dimensional (3D) image. The prostate in the compounded 3D image is segmented to show its border. A second registration and then a third registration different from the second registration is performed on distance maps generated from the prostate borders of the first image and the compounded 3D image, wherein the first and second registrations are based on a biomechanical property of the prostate. A region of interest in the first image is mapped to the compounded 3D image or a fourth image of the prostate acquired with the second modality.

Abstract: An in vitro method is for diagnosing a tumor disease in a patient.

Abstract: An embodiment of the present invention relates to a device, which can be implanted into a patient, for an in vivo measurement. In an embodiment, the device includes a catheter for guiding a sample of the patient town analysis unit in the device. A measurement result is determined in the analysis unit by analyzing the sample with the aid of a reagent. In an embodiment, the device furthermore includes an interchange chamber, with the aid of which the reagent can be removed from the device or can be inserted into the device. The interchange chamber has a connector allowing removal or insertion of the reagent while the device is implanted.

Abstract: In a method for the implementation of a medical examination via the user interface of at least one imaging device, parameter values in a group of measurement parameters are determined, and are entered via an input device of the user interface. Spatially resolved image information are generated by the at least one imaging device depending on the group of measurement parameters, and the image information is stored on a storage medium. The image information are presented as a data symbol on a screen of the user interface. In order to present the parameters and dependencies to enable a more efficient work process, each measurement parameter of the group of measurement parameters is respectively presented on the screen in a measurement parameter cell of a matrix with multiple rows and multiple columns. The measurement parameters can be contained at least in part in multiple measurement parameter cells.

Abstract: Operation of a method and a device for the implementation of a medical examination via a user interface of at least one imaging device include determination and input of a group of measurement parameters via an input device of the user interface, generation of spatially resolved image information with the at least one imaging device depending on the group of measurement parameters, and storage of the image information on a storage medium and presentation of the image information as a data symbol on a screen of the user interface. Multiple data symbols are presented in a predetermined arrangement on the screen for a medical assessment. A UI element on the screen and a pointer symbol is positioned on the screen in one of the multiple data symbols via an input device. A predetermined region at the position of the pointer symbol is shown in the UI element.

Abstract: A computer program product has a check routine and an active part. When the computer program product is called, a computer, while processing the check routine, initiates a transmitter to send a launch signal. A transponder receives this signal, checks whether a time-dependent and/or usage-dependent transmission condition is met and transmits an enable code as warranted. A receiver receives the enable code and communicates it to the computer. The computer checks the enable code and undertakes processing of the active part only when the enable code satisfies an enable condition.

Abstract: A method is disclosed for determining attenuation values for PET data of a patient. In at least one embodiment, the method includes detecting at least one accessory of a magnetic resonance imaging scanner and detecting the position and/or alignment of the accessory by way of an imaging measuring method; comparing the detected accessory with data from a database; and assigning an attenuation map, which is contained in the database, to attenuation values of the detected accessory and adapting the attenuation map to the detected position and/or alignment of the accessory.

Abstract: A PET examination which acquires a data record of the body of a patient is carried out during at least one embodiment of a method for acquiring measured data. On the basis of the measured values of the data record, at least one region of interest in the body of the patient is determined, in which at least one examination of at least one embodiment of a method is carried out.