DocumentCode
2762672
Title
On-the-Fly Detection of Changes in Mucosal Tissue Architecture During Endoscopy - A Flag as to Where and When to Take Biopsies
Author
Cohen, Fernand S. ; Taslidere, Ezgi ; Murthy, Sreekant
Author_Institution
Dept. of Electr. & Comput. Eng., Drexel Univ., Philadelphia, PA
fYear
2008
fDate
18-20 Dec. 2008
Firstpage
1
Lastpage
4
Abstract
In this paper we present a segmentation technique that raises a flag on-the-fly as to when a transition occurs between different mucosal architectures while traveling along the surface of the tissue for careful and subsequent examination. The presented segmentation technique has the potential to enhance the endoscopist´s ability to locate and identify abnormal mucosal architectures; and to help in the decision as to when and where to take biopsies; steps that should lead to improvement in the diagnostic yield. The segmentation scheme is based on detecting an abrupt change in the parameters extracted from the stochastic decomposition method (SDM) that models the scattered signal. Subsequent evaluation of the homogeneous regions separated by the found edges for further mucosal type classification is then possible. The tests are performed on two types of animal tissue data collected from rat colon and rabbit colon in vitro. The results demonstrate the effectiveness of the proposed segmentation scheme to detect the transition between different mucosal structures on-the-fly with sensitivity reaching 40 mum which corresponds to the sliding segmentation window step size used in our experiments.
Keywords
biomedical optical imaging; biomembranes; cancer; endoscopes; image classification; image segmentation; medical image processing; stochastic processes; tumours; SDM; abnormal mucosal tissue architecture; animal tissue data; cancer; endoscopy; homogeneous region; in vitro study; mucosal-type classification; on-the-fly detection; rabbit colon; rat colon; segmentation technique; signal scattering model; sliding segmentation window step size; stochastic decomposition method; Animals; Biopsy; Colon; Data mining; Endoscopes; Performance evaluation; Rabbits; Scattering parameters; Stochastic processes; Testing; biological signal processing; computer-aided diagnosis; medical image analysis; optical imaging; optical signal processing; segmentation; stochastic analysis;
fLanguage
English
Publisher
ieee
Conference_Titel
Biomedical Engineering Conference, 2008. CIBEC 2008. Cairo International
Conference_Location
Cairo
Print_ISBN
978-1-4244-2694-2
Electronic_ISBN
978-1-4244-2695-9
Type
conf
DOI
10.1109/CIBEC.2008.4786050
Filename
4786050
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