Mass analysis data processing method and mass analysis data processing apparatus

摘要

The present invention provides a method and apparatus for efficiently handling a large amount of data collected by an imaging mass analysis to present significant information for the analysis of the tissue structure of a biological sample or other objects in an intuitively understandable form for analysis operators. For each pixel 8b on a sample 8, a mass-to-charge ratio m/z(i) corresponding to the maximum intensity MI(i) in a mass spectrum is listed, and the largest value MII of the maximum intensities of all the pixels are extracted. A color scale corresponding to the intensity values within a range of 0 to MII is defined. For each pixel, the maximum intensity MI is compared with the color scale to assign a color to that pixel. A mapping image with the pixels shown in the respective colors is created and displayed. Simultaneously, a spectrum showing the relationship between MI(i) and m/z(i) of all the pixels is created in such a manner that the peak colors correspond to the pixel colors on the mapping image. The mapping image shows the tissue structure of the sample. By comparing this image with the spectrum, the m/z of a noticeable substance in the sample can be identified.

主权项

1. A mass analysis data processing method for processing collected data comprising:
a) performing a mass analysis on each of a plurality of micro areas set within a two-dimensional area on a sample to obtain mass spectrum data for each micro area; b) extracting a maximum intensity and a mass-to-charge ratio giving the maximum intensity for each micro area, based on the mass spectrum data corresponding to the micro area; c) extracting a largest value of the maximum intensities of the micro areas obtained in step b), determining a color scale for displaying the intensity based on the largest value, assigning a color to each micro area according to the color scale, the color corresponding to the maximum intensity obtained for each micro area in step b), and creating and displaying a colored two-dimensional image of the maximum intensity for each micro area corresponding to a portion or entirety of the two-dimensional area; and d) creating a maximum-intensity spectrum based on the mass spectrum data corresponding to the micro area showing a relationship between the maximum intensity obtained for each micro area in the step b) and the mass-to-charge ratio giving the maximum intensity, and displaying the maximum-intensity spectrum in conjunction with the colored two-dimensional image, wherein in the maximum-intensity spectrum, each peak of the maximum intensity at each micro area with the same mass-to-charge ratio is superimposed such that a resulting superimposed peak is segmented with colors according to the color scale.