Signal processing method for analyzing autoradiograph
First Claim
1. A signal processing method for analyzing an autoradiograph to identify locations of radioactively labeled substances on a support medium, said labeled substances being resolved in a pattern along a one-dimensional developing direction on the support medium by subjecting to digital signal processing digital image data including a plurality of signals of different levels and values obtained by placing the support medium and a radiographic film together in layers to record the autoradiograph of the radioactively labeled substances on said radiographic film as a visible image, and photoelectrically reading out the autoradiograph visualized on the radiographic film, wherein said digital signal processing includes the steps of:
- (a) dividing said digital image data into two or more blocks along a direction perpendicular to the developing direction;
(b) determining the signal level and the number of signals for each of said blocks;
(c) preparing a histogram representative of the relationship between signal level and number of signals for each of said blocks.(d) determining an effective range of signal level and the maximum value and the minimum value of said effective range of signal level from said histogram;
(e) determining an effective level range over all of the digital image data at every position along the developing direction on the basis of the effective level range determined for each block;
(f) using the effective level range determined in step (e), converting the digital image data to produce a gradation of digital signals dependent on the maximum and minimum signal values determined in step (d); and
(g) identifying the positions of the radioactively labeled substances on the support medium from the gradation converted digital signals produced in step (f).
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Abstract
A signal processing method for analyzing an autoradiograph to identify the locations of radioactively labeled substances which have been resolved in a one-dimensional developing direction on a support medium is provided. According to this method, digital image data including a plurality of different levels and values obtained by placing the support medium and a radiographic film together in layers to record the autoradiograph of the radioactively labeled substances are subjected to digital signal processing to identify their positions in a manner which substantially eliminates background noise. A stimulable phosphor sheet can be used in place of the radiographic film to record the autoradiograph. The method described herein may be effectively used to identify selected components of various biopolymers.
34 Citations
8 Claims
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1. A signal processing method for analyzing an autoradiograph to identify locations of radioactively labeled substances on a support medium, said labeled substances being resolved in a pattern along a one-dimensional developing direction on the support medium by subjecting to digital signal processing digital image data including a plurality of signals of different levels and values obtained by placing the support medium and a radiographic film together in layers to record the autoradiograph of the radioactively labeled substances on said radiographic film as a visible image, and photoelectrically reading out the autoradiograph visualized on the radiographic film, wherein said digital signal processing includes the steps of:
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(a) dividing said digital image data into two or more blocks along a direction perpendicular to the developing direction; (b) determining the signal level and the number of signals for each of said blocks; (c) preparing a histogram representative of the relationship between signal level and number of signals for each of said blocks. (d) determining an effective range of signal level and the maximum value and the minimum value of said effective range of signal level from said histogram; (e) determining an effective level range over all of the digital image data at every position along the developing direction on the basis of the effective level range determined for each block; (f) using the effective level range determined in step (e), converting the digital image data to produce a gradation of digital signals dependent on the maximum and minimum signal values determined in step (d); and (g) identifying the positions of the radioactively labeled substances on the support medium from the gradation converted digital signals produced in step (f). - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A signal processing method for analyzing an autoradiograph to identify locations of radioactively labeled substances on a support medium, said labeled substances being resolved in a pattern along a one-dimensional developing direction on the support medium by subjecting to digital signal processing digital image data including a plurality of signals of different levels and values obtained by placing the support medium and a stimulable phosphor sheet comprising a stimulable phosphor together in layers to record the autoradiograph of radioactively labeled substances on said phosphor sheet, irradiating said phosphor sheet with stimulating rays and photoelectrically detecting the autoradiograph as stimulated emission, wherein said digital signal processing includes the steps of:
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(a) dividing said digital image data into two or more blocks along a direction perpendicular to the developing direction; (b) determining the signal level and the number of signals for each of said blocks; (c) preparing a histogram representative of the relationship between signal level and number of signals for each of said blocks, (d) determining an effective range of signal level and the maximum value and the minimum value of said effective range of signal level from said histogram; (e) determining an effective level range over all of the digital image data at every position along the developing direction on the basis of the effective level range determined for each block; (f) using the effective level range determined in step (e), converting the digital image data to produce a gradation of digital signals dependent on the maximum and minimum signal value determined in step (d); and (g) identifying the positions of the radioactively labeled substances on the support medium from the gradation converted digital signals produced in step (f).
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Specification