Patent ID: 7732217
Filing Date: 2010-06-08
Classification: G01N

Abstract:
1. A method for reading fluorescence from a bead array for acquiring a fluorescence image of a bead chip array in which beads are arrayed in a groove formed in a resin, the method comprising: causing an excitation light source to emit an excitation light to a bead to which is attached a fluorescent substance having an absorption wavelength contained in the excitation light, wherein light from the bead has a fluorescence component having a fluorescence wavelength resulting from excitation of the fluorescent substance with the excitation light, and a reflection component resulting from reflection of the excitation light from the bead; separating, from the light from the bead, first light containing substantially the fluorescence component with a first dichroic mirror for selectively separating and reflecting the fluorescent light from the bead; converting the first light into electric signals by a first photoreceiver; converting the electric signals obtained from the first light into digital signals by a first conversion means to obtain first digitized data of said fluorescence component; obtaining, from the light from the bead, second light containing substantially the wavelengths other than the fluorescence wavelength with a second dichroic mirror for selectively separating wavelengths other than that of the fluorescent light so as to receive the reflected light from the bead; converting the light having wavelengths other than the fluorescence wavelength into electric signals by a second photoreceiver; converting the electric signals obtained from the light having wavelengths other than the fluorescence wavelength into digital signals by a second conversion means to obtain second digitized data of said reflection component; feeding the first and second digitized data into a computer; recognizing the bead through image processing of the second digitized data, calculating a center position thereof, and obtaining array form information by a reflection image processing means, and analyzing the fluorescence quantity of the bead by a fluorescence image analysis means based on the array form information, wherein the method is performed for each bead in the bead array, and wherein the calculation of center position is conducted by converting two-dimensional 16-bit monaural data of reflection components into 24-bit RGB color data by a 24-bit RGB conversion process in order to add color temperature information to monaural shades of the monaural data; setting a threshold value with respect to the color temperature information, binarizing the threshold value by a monochrome binarization process to obtain a two-dimensional binarized image file; carrying out a line search on x and y axes of the binarized image file, designating a center of the lines where the x axis and the y axis intersect as a provisional origin; designating four points that are at an angle of 45° respectively from each of the positive and negative x and y axes, referenced to the provisional origin, as peripheral reference points; recognizing a profile of the bead based on the peripheral reference points; calculating the center coordinates based on the recognized profile; and seeking alignment between an external size of the bead and the profile to obtain an accurate center position.