Abstract: A method involves detecting in a sample an autoantibody binding specifically to one or more from Gluk1, Gluk2, Gluk3, Gluk4 and Gluk5, preferably Gluk2. An autoantibody binds specifically to one or more from Gluk1, Gluk2, Gluk3, Gluk4 and Gluk5, preferably Gluk2. A diagnostically useful carrier with a solid phase with an immobilized polypeptide contains one or more from Gluk1, Gluk2, Gluk3, Gluk4 and Gluk5, preferably Gluk2 or a variant thereof. The autoantibody can be used for diagnosing a neurological autoimmune disease or a cancer.

Abstract: The method comprising acquiring and analyzing by computer means image information of video sequences of two or more dimensions obtained from contrast-enhanced signals, for example ultrasound, coherence tomography, fluorescence images, or Magnetic Resonance Imaging, of a body part or tissue, for example of an organ, of a living subject; detecting events from said information of video sequences; selecting a Region of Interest of said body part or tissue; computing a first graph representative of a local vascular network of said image information of video sequences in which the edges of the graph are estimated by the temporal relationship among spatially remote signals of said image information of video sequences within a set of video sequences; and using said graph for assessment of vascular networks.

Abstract: The present invention is related to 4-amino-6-(2,6-dichlorophenyl)-2-(phenylamino)-pyrido[2,3-d]pyrimidin-7(8H)-one derivatives, to the preparation of such compounds, to pharmaceutical compositions comprising them, and to their use in the treatment and/or prevention of a non-Hodgkin's lymphoma.

Abstract: The method comprising acquiring and analysing by computer means image information of video sequences of two or more dimensions obtained from contrast-enhanced signals, for example ultrasound, coherence tomography, fluorescence images, or Magnetic Resonance Imaging, of a body part or tissue, for example of an organ, of a living subject; detecting events from said information of video sequences; selecting a Region of Interest of said body part or tissue; computing a first graph representative of a local vascular network of said image information of video sequences in which the edges of the graph are estimated by the temporal relationship among spatially remote signals of said image information of video sequences within a set of video sequences; and using said graph for assessment of vascular networks.

Abstract: Equipment for infrared vision of anatomical structures applicable to assist the physicians in endoscopic, fetoscopic or laparoscopic operations and methods for signal processing to enhance said vision, comprising two units that work together: a multimodal or multispectral imaging unit, constituted by a device comprising an endoscope or fetoscope or laparoscope, and additional optical systems to acquire multimodal images of the interior of the patient's body; and an image processing unit, to which said images are transferred, comprising processing devices with a navigation interface which process said images and display the patient's enhanced anatomical map image and the endoscope location, equipped with hardware and software that apply at least five different vision-enhancing methods, namely normalization, segmentation, tracking, mapping and fusion.