• DocumentCode
    754303
  • Title

    Intensity-based segmentation of microarray images

  • Author

    Nagarajan, Radhakrishnan

  • Author_Institution
    Center on Aging, Univ. of Arkansas for Med. Sci., Little Rock, AR, USA
  • Volume
    22
  • Issue
    7
  • fYear
    2003
  • fDate
    7/1/2003 12:00:00 AM
  • Firstpage
    882
  • Lastpage
    889
  • Abstract
    The underlying principle in microarray image analysis is that the spot intensity is a measure of the gene expression. This implicitly assumes the gene expression of a spot to be governed entirely by the distribution of the pixel intensities. Thus, a segmentation technique based on the distribution of the pixel intensities is appropriate for the current problem. In this paper, clustering-based segmentation is described to extract the target intensity of the spots. The approximate boundaries of the spots in the microarray are determined by manual adjustment of rectilinear grids. The distribution of the pixel intensity in a grid containing a spot is assumed to be the superposition of the foreground and the local background. The k-means clustering technique and the partitioning around medoids (PAM) were used to generate a binary partition of the pixel intensity distribution. The median (k-means) and the medoid (PAM) of the cluster members are chosen as the cluster representatives. The effectiveness of the clustering-based segmentation techniques was tested on publicly available arrays generated in a lipid metabolism experiment (Callow et al., 2000). The results are compared against those obtained using the region-growing approach (SPOT) (Yang et al., 2001). The effect of additive white Gaussian noise is also investigated.
  • Keywords
    AWGN; arrays; biological techniques; biology computing; genetics; image segmentation; additive white Gaussian noise; binary partition; foreground; intensity-based segmentation; lipid metabolism experiment; local background; microarray images; pixel intensities distribution; pixel intensity distribution; publicly available arrays; Biochemistry; DNA; Fluorescence; Gene expression; Image color analysis; Image segmentation; Lipidomics; Probes; Switches; Testing; Algorithms; Apolipoprotein A-I; Cluster Analysis; Gene Expression Profiling; Image Enhancement; Microscopy, Fluorescence; Oligonucleotide Array Sequence Analysis; Spectrometry, Fluorescence;
  • fLanguage
    English
  • Journal_Title
    Medical Imaging, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0278-0062
  • Type

    jour

  • DOI
    10.1109/TMI.2003.815063
  • Filename
    1216211