Patent ID: 8274061
Filing Date: 2012-09-25
Classification: G01N

Abstract:
1. A scanner comprising: at least one laser stimulating ray source for emitting a laser beam, a sample stage on which a sample containing a labeling substance is to be placed, a scanning means for moving the sample stage so that the sample placed on the sample stage can be scanned with the laser beam emitted from the at least one laser stimulating ray source, a photomultiplier for photoelectrically detecting light released from the labeling substance contained in the sample upon being scanned with the laser beam and producing analog image data, and an A/D converter for converting the analog image data produced by the photomultiplier to digital image data; the scanner further comprising pixel density signal intensity simulating means for effecting simulation based on pre-scan digital image data produced by setting a voltage value of the photomultiplier to a given photomultiplier voltage value G0, scanning the sample placed on the sample stage with the laser beam emitted from the at least one laser stimulating ray source, thereby effecting pre-scanning, and photoelectrically detecting light released from the labeling substance contained in the sample as a result of the pre-scanning by the photomultiplier, which simulation uses the pre-scan digital image data produced when the voltage value of the photomultiplier is set to G0 to simulate density signal intensity of each pixel of digital image data that would be produced by setting the photomultiplier to a voltage value G different from the voltage value G0, scanning the sample placed on the sample stage with the laser beam emitted from the at least one laser stimulating ray source, photoelectrically detecting light released from the labeling substance contained in the sample by the photomultiplier whose voltage value is set to G to produce analog image data, and digitizing the analog image data by the A/D converter, wherein the pixel density signal intensity simulating means comprises density signal intensity shift value calculating means for calculating a density signal intensity shift value of density signal intensity of each pixel of digital image data that would be produced by scanning the sample placed on the sample stage with the laser beam emitted from the at least one laser stimulating ray source, photoelectrically detecting light released from the labeling substance contained in the sample by the photomultiplier set to a photomultiplier voltage value G different from the given photomultiplier voltage value G0 to produce analog image data, and digitizing the analog image data by the A/D converter from the density signal intensity of each pixel of the digital image data produced by the pre-scanning, and pixel density signal intensity correcting means for correcting the density signal intensity of each pixel of the digital image data produced by the pre-scanning based on the density signal intensity shift value calculated by the density signal intensity shift value calculating means and simulating density signal intensity of each pixel of digital image data that would be produced by scanning the sample placed on the sample stage with the laser beam emitted from the at least one laser stimulating ray source, photoelectrically detecting light released from the labeling substance contained in the sample by the photomultiplier set to a photomultiplier voltage value G different from the given photomultiplier voltage value G0 to produce analog image data, and digitizing the analog image data by the A/D converter, and wherein the density signal intensity shift value calculating means is constituted so as to calculate a density signal intensity shift value Δ QL of each pixel in accordance with the following formula: wherein G0 is the given photomultiplier voltage value, G is a photomultiplier voltage value different from the given photomultiplier voltage value G0, B is the number of bits and L is latitude.