Title :
DETERMINATION OF MITOTIC DELAYS IN 3D FLUORESCENCE MICROSCOPY IMAGES OF HUMAN CELLS USING AN ERROR-CORRECTING FINITE STATE MACHINE
Author :
Harder, N. ; Mora-Bermúdez, F. ; Godinez, W.J. ; Ellenberg, J. ; Eils, R. ; Rohr, K.
Author_Institution :
Dept. Bioinformatics & Functional Genomics, Heidelberg Univ.
Abstract :
In high-throughput cell phenotype screens large amounts of image data are acquired. The evaluation of these microscopy images constitutes a bottleneck and motivates the development of automated image analysis methods. Here we introduce a computational scheme to process 3D multi-cell image sequences as they are produced in large-scale RNAi experiments. We describe an approach to automatically segment, track, and classify cell nuclei into seven different mitotic phases. In particular, we present an algorithm based on a finite state machine to check the consistency of the resulting sequence of mitotic phases and to correct classification errors. Our approach enables automated determination of the duration of the single phases and thus the identification of cell cultures with delayed mitotic progression.
Keywords :
biomedical optical imaging; cellular biophysics; error correction; finite state machines; fluorescence; image classification; image segmentation; image sequences; medical image processing; optical microscopy; 3D fluorescence microscopy; RNAi; cell nuclei classification; cell nuclei segmentation; cell phenotype screens; finite state machine; human cells; image sequences; mitotic delays; Automata; Delay; Error correction; Fluorescence; Humans; Image segmentation; Image sequence analysis; Image sequences; Large-scale systems; Microscopy;
Conference_Titel :
Biomedical Imaging: From Nano to Macro, 2007. ISBI 2007. 4th IEEE International Symposium on
Conference_Location :
Arlington, VA
Print_ISBN :
1-4244-0672-2
Electronic_ISBN :
1-4244-0672-2
DOI :
10.1109/ISBI.2007.357034
