BEČVÁŘOVÁ, Pavlína, Jiřina ŠKORPÍKOVÁ, Roman JANISCH and Jindich NOVÝ. Sledování poškození cytoskeletu nádorových bunk - od subjektivního hodnocení k hodnocení kvantitativnímu (The cytoskeleton damage of tumour cells - from subjective to quantitative evaluation). In Sborník XXVIII. Dny lékařské biofyziky. 1.vyd. Brno: Masarykova Univerzita, 2005, p. 6-6. ISBN 80-210-3695-8.
Other formats:   BibTeX LaTeX RIS
Basic information
Original name Sledování poškození cytoskeletu nádorových bunk - od subjektivního hodnocení k hodnocení kvantitativnímu
Name in Czech Sledování poškození cytoskeletu nádorových bunk - od subjektivního hodnocení k hodnocení kvantitativnímu
Name (in English) The cytoskeleton damage of tumour cells - from subjective to quantitative evaluation
Authors BEČVÁŘOVÁ, Pavlína, Jiřina ŠKORPÍKOVÁ, Roman JANISCH and Jindich NOVÝ.
Edition 1.vyd. Brno, Sborník XXVIII. Dny lékařské biofyziky, p. 6-6, 1 pp. 2005.
Publisher Masarykova Univerzita
Other information
Original language Czech
Type of outcome Proceedings paper
Field of Study 10610 Biophysics
Country of publisher Czech Republic
Confidentiality degree is not subject to a state or trade secret
Organization unit Faculty of Medicine
ISBN 80-210-3695-8
Keywords in English cytoskeleton changes;quantitative evaluation
Tags cytoskeleton changes, quantitative evaluation
Changed by Changed by: Yvona Janošíková, učo 2412. Changed: 27/4/2006 14:06.
Abstract
The images were processed by FFT magic software. The structure analysis is based on frequency domain filtering and discrete Fourier transform. The basic idea is to design filters to extract information describing best the structural changes. The properties of the filter can be enhanced by direction filtering, i.e., extraction of a symmetric angular segment in the frequency domain centred on a zero frequency. The final image is a normalised sum of inverse FFTs of such segmented spectra.
Abstract (in English)
The images were processed by FFT magic software. The structure analysis is based on frequency domain filtering and discrete Fourier transform. The basic idea is to design filters to extract information describing best the structural changes. The properties of the filter can be enhanced by direction filtering, i.e., extraction of a symmetric angular segment in the frequency domain centred on a zero frequency. The final image is a normalised sum of inverse FFTs of such segmented spectra.
Links
GA304/04/1386, research and development projectName: Účinky terapeutického laseru na úrovni buněčných struktur
Investor: Czech Science Foundation, Effects of the Non-invasive Lsaser Treatment on the Cell Structure
GA305/05/2030, research and development projectName: Nové přístupy k chemoterapii rakoviny látkami odvozenými od sloučenin kovů
Investor: Czech Science Foundation
GD301/03/H005, research and development projectName: Molekulární a buněčná biologie v biomedicíně
Investor: Czech Science Foundation, Molecular and cell biology in biomedicine
PrintDisplayed: 15/10/2024 14:50