Abstract: An article of clothing, in particular a jacket, comprising a plurality of cut parts each cut to size from a fabric and sewn together, the article of clothing including electronic components. As electronic components, the article of clothing comprises at least one sensor unit for detecting a presence of an external object, a control unit 4, and an electronic signal generator unit, wherein the control unit is designed to receive measured values from the sensor unit during an operating phase of the article of clothing and to transmit control signals generated as a function of the read measured values to the signal generator unit, the signal generator unit being designed to output a predefined signal which can be perceived by a wearer of the article of clothing and/or by an external observer of the article of clothing on receipt of a predefined control signal.

Abstract: At least one embodiment of the present invention relates to a method and/or an apparatus for determining the spatial profile of a vessel axis in volume data records for medical imaging, in particular for producing slice images of vessels which are obtained by curved planar reformation CPR and can be rotated freely. In at least one embodiment of the method, the vessel axis is marked interactively on the displayed MPR or MIP images by marking points using a two-dimensional coordinate system. Depth information is derived automatically for each marking point from the known position of the respective image in the stack or using the known calculation procedure for MIP images, and the marking points are extended in dimension on the basis of the depth information in order to obtain extended marking points using a three-dimensional coordinate system.

Abstract: A method and an apparatus are disclosed for visualizing deposits in blood vessels, particularly in coronary vessels. In such a method, 2D slice images may be reconstructed from the measurement data, with image data of the 2D slice images being post-processed for local determination of brightness values and/or of default values on which these are based in the 2D slice images. In the presentation of the 2D slice images, one or more image areas are marked in which, in the post-processing, pixels are automatically color-coded and presented according to a predeterminable transfer function which assigns different colors to different value ranges of brightness values and/or of default values on which these are based.

Abstract: At least one embodiment of the present invention relates to a method and/or an apparatus for determining the spatial profile of a vessel axis in volume data records for medical imaging, in particular for producing slice images of vessels which are obtained by curved planar reformation CPR and can be rotated freely. In at least one embodiment of the method, the vessel axis is marked interactively on the displayed MPR or MIP images by marking points using a two-dimensional coordinate system. Depth information is derived automatically for each marking point from the known position of the respective image in the stack or using the known calculation procedure for MIP images, and the marking points are extended in dimension on the basis of the depth information in order to obtain extended marking points using a three-dimensional coordinate system.

Abstract: An interactive user assistant for imaging processes analyzes medical image data pertaining to regions of interest. The user assistant compares displayed medical images and/or the data underlying the medical images with expected medical image data. The user assistant identifies whether or not the displayed medical image meets expectations or is plausible. The user assistant may use previously analyzed data in determining whether the displayed medical image is as expected. If the displayed medical image does not meet expectations, the user assistant determines whether or not the cause of the disagreement between the displayed and expected images is ascertainable. If the cause of the disparity between the images is ascertainable, the user assistant presents specific recommendations. If the cause of the disparity between the images is not ascertainable, the user assistant presents general suggestions.

Abstract: A method and an apparatus are disclosed for visualizing deposits in blood vessels, particularly in coronary vessels. In such a method, 2D slice images may be reconstructed from the measurement data, with image data of the 2D slice images being post-processed for local determination of brightness values and/or of default values on which these are based in the 2D slice images. In the presentation of the 2D slice images, one or more image areas are marked in which, in the post-processing, pixels are automatically color-coded and presented according to a predeterminable transfer function which assigns different colors to different value ranges of brightness values and/or of default values on which these are based.