Abstract: The invention relates to an automatic focusing apparatus for the microscopic examination of a plurality of spatially distributed (biological) samples, whereby an object stage that is vertically movable relative to the microscope has a carriage that is translatable along the x-axis and y-axis and a sample stage that is translatable along the z-axis and is mounted on the carriage. Furthermore, the invention relates to a method for automatic focusing and microscopic examination of a plurality of spatially distributed biological samples, through a microscope having an object stage that is vertically movable relative to the microscope.

Abstract: The invention relates to an automatic focusing apparatus for the microscopic examination of a plurality of spatially distributed (biological) samples, whereby an object stage that is vertically movable relative to the microscope has a carriage that is translatable along the x-axis and y-axis and a sample stage that is translatable along the z-axis and is mounted on the carriage. Furthermore, the invention relates to a method for automatic focusing and microscopic examination of a plurality of spatially distributed biological samples, through a microscope having an object stage that is vertically movable relative to the microscope.

Abstract: The invention relates to a method and system for disease diagnosis that simultaneously detects antibodies bound to cellular and/or tissue substrates and antibodies bound to synthetic substrates, such as microparticles or beads coated with specific antigens, thereby providing a “one-step” method for the simultaneous detection and characterization of disease-associated antibodies at both low (cellular and/or tissue) and high (antigen) specificity.

Abstract: The invention relates to a method for automated determination of immunofluorescent foci by means of an immunofluorescence assay using synthetic calibration particles, in addition to a system and kit for carrying out the method. In a preferred embodiment the method is characterized in that the immunofluorescent foci are gamma H2Ax foci.

Abstract: The invention relates to a method for automated determination of immunofluorescent foci by means of an immunofluorescence assay using synthetic calibration particles, in addition to a system and kit for carrying out the method. In a preferred embodiment the method is characterized in that the immunofluorescent foci are gamma H2Ax foci.