Abstract: A device and an according method for multispectral optoacoustic imaging of an object is provided comprising: an irradiation unit configured to irradiate the object with electromagnetic radiation at two or more different irradiation wavelengths the electromagnetic radiation having a time-varying intensity; a detection unit configured to detect acoustic waves generated in the object upon irradiating the object with the electromagnetic radiation at the different irradiation wavelengths; and a processing unit configured to reconstruct images of the object based on the detected acoustic waves generated in the object at each of the irradiation wavelengths and to determine a spatial distribution of at least one first concentration value, which relates to a concentration of at least one electromagnetic radiation absorber in the object.

Abstract: The present invention relates to the use of the biomarker Flattop (Fltp) for distinguishing mature ? cells from immature progenitor ? cells. The present invention further relates to a method for distinguishing a mature ? cell from an immature progenitor ? cell, the method comprising: determining the presence or absence of the biomarker Flattop (Fltp) in a ? cell; wherein the presence of Fltp in the cell indicates that the cell is a mature ? cell and wherein the absence of Fltp in the cell indicates that the cell is an immature progenitor ? cell. Furthermore, the present invention relates to a method of identifying a compound suitable for differentiating immature progenitor ? cells into mature ? cells as well as to a method of identifying a compound suitable for preventing the de-differentiating of mature ? cells.

Abstract: The present invention relates to compounds and compositions for use in methods of treating and/or preventing conditions, disorders or diseases that are mediated or caused by a virus.

Abstract: The present invention concerns a device for improved hygienic monitoring of individually ventilated caging (IVC) rack systems for laboratory animals and method for contamination-free removal of biological samples from unwanted organisms from the IVC-rack system. The device allows the performance of sampling operations on a ventilated shelving system in a safe and effective manner, without interfering with the ventilation air flow. The method of the invention allows the removal and transfer of the biological sample from inside the IVC-rack in a contamination-free manner by enabling a safe transfer of the sample from inside the IVC-rack system to any further processing procedure for analysis of the biological sample outside the IVC-rack system. It is also an object of the present invention to provide a device which is adapted to be used also on existing ventilated shelving systems, allowing the refitting of existing IVC-rack systems.

Abstract: The invention relates to compounds which are suitable for the treatment of cancer, an immune disease, Parkinson's disease, Cardiac Hypertrophy or Type-2 diabetes and to pharmaceutical compositions containing such compounds. The invention further relates to a kit of parts comprising such compounds.

Abstract: An imaging device includes (a) a light source device arranged to illuminate a sample under investigation with illumination light, (b) a detector device arranged to collect a plurality of images including at least one sample light image backscattered by the sample, and at least one marker light image originating from at least one marker substance in the sample, and (c) a processor device adapted to process the at least one sample light image.

Abstract: An imaging device configured for optoacoustic imaging of an object, including an illumination device including optical components arranged to illuminate the object, a detector device comprising an array of detector elements arranged in a tank and arranged to detect acoustic signals created in the object, and a container device including a tank arranged to accommodate the detector device, the object and a matching transmission medium, a holding device adapted to position and move the object relative to the illumination device and the detector device, wherein the optical components are arranged in the tank to illuminate the object from different directions.

Abstract: The present invention contemplates dendritic cell compositions. The dentritic cell compositions employ MHC class-II targeting signals fused to an antigen or fragment thereof to obtain MHC II presentation of the antigen or fragment thereof. In particular, the invention refers to a dendritic cell vaccine comprising dendritic cells expressing a MHC class-II targeting signal fused to an antigen or fragment thereof. Dendritic cell vaccines for the stimulation of an immune response against melanoma-associated antigen are also described.

Abstract: The present invention contemplates methods for the generation of human antigen-specific T lymphocytes. The methods employ MHC class-II targeting signals fused to an antigen or fragment thereof to obtain MHC class presentation of RNA coded proteins. Accordingly, the present invention concerns expression vectors comprising MHC class-II targeting signal and at least one antigen or fragment thereof and its use for the in vitro generation of antigen-specific T lymphocytes. T cell clones and T cell receptors (TCRs) specific for tumor antigens or viral antigens are also described.

Abstract: The present invention relates to a nucleic acid molecule encoding (I) a polypeptide having the activity of an endonuclease, which is (a) a nucleic acid molecule encoding a polypeptide comprising or consisting of the amino acid sequence of SEQ ID NO: 1; (b) a nucleic acid molecule comprising or consisting of the nucleotide sequence of SEQ ID NO: 2; (c) a nucleic acid molecule encoding an endonuclease, the amino acid sequence of which is at least 70% identical to the amino acid sequence of SEQ ID NO: 1; (d) a nucleic acid molecule comprising or consisting of a nucleotide sequence which is at least 50% identical to the nucleotide sequence of SEQ ID NO: 2; (e) a nucleic acid molecule which is degenerate with respect to the nucleic acid molecule of (d); or (f) a nucleic acid molecule corresponding to the nucleic acid molecule of any one of (a) to (e) wherein T is replaced by U; (II) a fragment of the polypeptide of (I) having the activity of an endonuclease.

Abstract: An imaging device for medical imaging includes a light source device arranged to illuminate a sample under investigation with illumination light, a detector device arranged to collect a plurality of images including at least two sample light images backscattered by the sample in different spectral ranges, and at least one marker light image originating from at least one marker substance in the sample, and a processor device adapted to process the at least two sample light images and create at least one correction component, the processor device further adapted to correct the marker light image using the at least one correction component.

Abstract: The present invention relates to the use of the biomarker Flattop (Fltp) for distinguishing mature ? cells from immature progenitor ? cells. The present invention further relates to a method for distinguishing a mature ? cell from an immature progenitor ? cell, the method comprising: determining the presence or absence of the biomarker Flattop (Fltp) in a ? cell; wherein the presence of Fltp in the cell indicates that the cell is a mature ? cell and wherein the absence of Fltp in the cell indicates that the cell is an immature progenitor ? cell. Furthermore, the present invention relates to a method of identifying a compound suitable for differentiating immature progenitor ? cells into mature ? cells as well as to a method of identifying a compound suitable for preventing the de-differentiating of mature ? cells.

Abstract: The present invention relates to semi-allogeneic antigen-presenting cells into which proteins and/or peptides or RNA or DNA or cDNA, respectively, encoding said proteins and/or peptides which are overexpressed in tumor cells or which are derived from autologous tumor cells or different tumor cells or different tumor cell lines have been introduced. Furthermore the invention relates to methods for the generation of these semi-allogeneic antigen-presenting cells as well as to the use thereof in the treatment of tumor diseases.

Abstract: The invention relates to a method for operating an electronic terminal (1.1-1.4) comprising an integrated image sensor (2.1-2.4) that has a large number of pixels, in particular for a mobile telephone. According to the invention, a dosage value of ionizing radiation striking the image sensor is determined by means of the image sensor (2.1-2.4). The invention further relates to a terminal that operates accordingly (e.g. a smart phone having a corresponding application program).

Abstract: The present invention relates to a method of producing a modified protein having an increased stability and/or improved folding efficiency as compared to the unmodified protein, the method comprising (i) modifying a nucleic acid molecule encoding a protein comprising at least one immunoglobulin constant domain-like region by (a-i) replacing the nucleotides encoding at least one amino acid, preferably an uncharged amino acid, in the loop separating the C strand from the D strand with nucleotides encoding a charged amino acid selected from the group consisting of Arg, Lys, His, Glu and Asp and/or replacing the nucleotides encoding at least one amino acid, preferably an uncharged amino acid, in the helix connecting the E strand with the F strand with nucleotides encoding a charged amino acid selected from the group consisting of Arg, Lys, His, Glu and Asp; (a-ii) replacing the nucleotides encoding at least one amino acid not having a side chain that can form a hydrogen bond in the loop separating the C strand fr

Abstract: The present invention is directed to a kit-of-parts or composition containing nucleic acid sequences coding for high-avidity, allo-restricted TCR, wherein the TCR are independently directed against the tyrosinase antigen, the melan-A antigen and the survivin antigen. The invention is further directed to a kit-of-parts or composition containing at least three groups of transgenic lymphocytes transformed with vectors coding for TCR against said antigens. Furthermore, the present invention provides a pharmaceutical composition and its use in the treatment of diseases involving malignant cells expressing said tumor-associated antigens. The invention further relates to a nucleic acid molecule coding for a TCR that recognizes the survivin antigen, a TCR encoded thereby and a T cell expressing said TCR. Further, the invention discloses a vector, a cell and a pharmaceutical composition encoding/containing same and their use in the treatment of diseases involving malignant cells expressing survivin.

Abstract: A system for creating an object image of an object under investigation, comprises a computing device being configured for creating the object image by using first tomography data of the object provided by a first tomography system and second tomography data of the object provided by a second tomography system, wherein the computing device is configured for calculating a first forward model describing the first tomography data using the second tomography data, performing a first inversion of the first forward model, calculating a parameter set using the first inversion, and performing a second inversion using the parameter set to obtain the object image to be created. Furthermore, a method of imaging an object under investigation is described, wherein the system for creating an object image is used.

Abstract: The invention relates to an X-ray camera (100) for the high-resolution detection of X-rays (1), comprising a plurality of radiation detectors (10), each of which has a carrier substrate (11), a detector layer (12), and contact electrodes (13). The detector layer (12) contains GaN, lies on the carrier substrate (11), and has a thickness of less than 50 ?m. The contact electrodes (13) form ohmic contacts with the detector layer (12). The X-ray camera also comprises a retaining device (20) on which the radiation detectors (10) are arranged along a specified reference line or reference surface (21). The invention also relates to a method for capturing an image of an object (2, 3) being examined using X-rays (1), said X-ray camera (100) being used in the method.

Abstract: A method for detecting radiation during the examination of a sample (1) comprises the steps of generating the radiation, more particularly X-ray radiation or proton radiation, by means of a source device (10), passing the radiation through the sample (1), and detecting the radiation by means of at least one photoelectric solid-state detector (20) containing a photoconduction section having a predetermined response threshold and a potential well section for taking up free charge carriers. The solid-state detector (20) is a GaN- or GaAs-based semiconductor detector and the potential well section contains a two-dimensional electron gas (2DEG). A setting of the radiation is provided in such a way that the solid-state detector (20) is operated separately from the response threshold of the photoconduction section and in a sensitivity range of the potential well section.

Abstract: The present invention is directed to a method of identifying CD4+ T cell antigens as well as to antigens which were identified by such a method. The present invention further is directed to the application of those identified antigens in medicine.