Automated image analysis in fluorescence microscopy: From isolated cells to tissues and microarray images

KOZUBEK, Michal, Petr MATULA, Pavel MATULA, David SVOBODA, Jan HUBENÝ and Petr KRONTORÁD. Automated image analysis in fluorescence microscopy: From isolated cells to tissues and microarray images. In Biophysics of the Genome. First Edition 2004. Brno: Masaryk University, 2004, p. 44-46. ISBN 80-210-3560-9.

Basic information

• Original name: Automated image analysis in fluorescence microscopy: From isolated cells to tissues and microarray images
• Name in Czech: Automatizovaná analýza obrazu ve fluorescenční mikroskopii: Od izolovaných buněk k obrazům tkání a mikročipů
• Authors: KOZUBEK, Michal (203 Czech Republic, guarantor), Petr MATULA (203 Czech Republic), Pavel MATULA (203 Czech Republic), David SVOBODA (203 Czech Republic), Jan HUBENÝ (203 Czech Republic) and Petr KRONTORÁD (203 Czech Republic).
• Edition: First Edition 2004. Brno, Biophysics of the Genome, p. 44-46, 3 pp. 2004.
• Publisher: Masaryk University

Other information

• Original language: English
• Type of outcome: Proceedings paper
• Field of Study: 20200 2.2 Electrical engineering, Electronic engineering, Information engineering
• Country of publisher: Czech Republic
• Confidentiality degree: is not subject to a state or trade secret
• RIV identification code: RIV/00216224:14330/04:00009701
• Organization unit: Faculty of Informatics
• ISBN: 80-210-3560-9
• Keywords in English: Image Analysis
• Tags: Image analysis
• Tags: International impact

Abstract

Laboratory of Optical Microscopy has been working on the automation of image analysis in fluorescence microscopy since mid-1990s. At that time mostly 2D image analysis of FISH stained cell nuclei was explored. The images contained isolated cells (such as blood cells) that did not form many clusters and, therefore, image segmentation (the most difficult part of image analysis) was quite easy to automate. Later on 3D images of FISH (or immunofluorescence) stained cell nuclei acquired in confocal mode were dealt with. Also in this case the cell nuclei were well separated from each other, however somewhat blurred in axial direction due to the inferior resolution along z-axis. Also for this case automated methods have been developed including algorithms for the computation of a mathematical model of cell (or cell nucleus) boundary in 3D. At the end of 1990s the necessity of tissue image analysis arose. In this area, fully automated image segmentation is not possible, hence the effort has been concentrated on semi-automatic approaches with minimal user interaction. Recently, also the demand of processing in vivo image series (of separated cells) has appeared, so automated object tracking algorithms have been investigated. Finally, our laboratory has started to produce also images of microarray slides, which are a special type of fluorescence microscopy images. For this type of images, completely new image processing methods are being developed that try to find grids as well as spots in an automated way. The presentation will be an overview of image analysis methods used in our laboratory for processing of the above-mentioned types of image data.

Abstract (in Czech)

Automatizovaná analýza obrazu ve fluorescenční mikroskopii: Od izolovaných buněk k obrazům tkání a mikročipů.

Links

• GA202/02/0804, research and development project: Name: Určení radiačního rizika pro vznik chronické myeloidní leukémie na základě měření vzdáleností mezi geny ABL a BCR v hematopoietických buňkách

Investor: Czech Science Foundation, Chronic myeloid leukemia radiation risk estimation based on BCR-ABL distances in hemotopoietic cells

• GA202/04/0907, research and development project: Name: Cytometrie s vysokým rozlišením na živých buňkách

Investor: Czech Science Foundation, High-resolution cytometry of living cells

• IAA5004306, research and development project: Name: Struktura lidského genomu

Investor: Academy of Sciences of the Czech Republic, Human genome structure

• IBS5004010, research and development project: Name: Vývoj nových diagnostických technik pro onkologii

Investor: Academy of Sciences of the Czech Republic, Development of new diagnostic teniques for oncology

• MSM 143300002, plan (intention): Name: Využití počítačové analýzy obrazu v optické mikroskopii

Investor: Ministry of Education, Youth and Sports of the CR, Application of computer image analysis in optical microscopy

• NC6987, research and development project: Name: Epigeneticky kontrolované změny exprese genů u nádorových onemocnění

Investor: Ministry of Health of the CR, Epigenetic control of gene expression in malignant diseases