A novel framework for cellular tracking and mitosis detection in dense phase contrast microscopy images
A novel framework for cellular tracking and mitosis detection in dense phase contrast microscopy images
The aim of this paper is to detail the development of a novel tracking framework that is able to extract the cell motility indicators and to determine the cellular division (mitosis) events in large time-lapse phase-contrast image sequences. To address the challenges induced by nonstructured (random) motion, cellular agglomeration, and cellular mitosis, the process of automatic (unsupervised) cell tracking is carried out in a sequential manner, where the interframe cell association is achieved by assessing the variation in the local cellular structures in consecutive frames of the image sequence. In our study, a strong emphasis has been placed on the robust use of the topological information in the cellular tracking process and in the development of targeted pattern recognition techniques that were designed to redress the problems caused by segmentation errors, and to precisely identify mitosis using a backward (reversed) tracking strategy. The proposed algorithm has been evaluated on dense phase-contrast cellular data and the experimental results indicate that the proposed algorithm is able to accurately track epithelial and endothelial cells in time-lapse image sequences that are characterized by low contrast and high level of noise. Our algorithm achieved 86.10% overall tracking accuracy and 90.12% mitosis detection accuracy.
642-653
Thirusittampalam, K
923f0260-2c27-4b72-980b-73bea60c73af
Hossain, MJ
bba1b875-7604-462b-a55b-ba0b54f728e8
Ghita, O
7f5ca381-bf5f-41e0-9fdb-314ae4185acf
Whelan, PF
80bc79fe-b56c-4c16-a794-998e8fe580cc
1 May 2013
Thirusittampalam, K
923f0260-2c27-4b72-980b-73bea60c73af
Hossain, MJ
bba1b875-7604-462b-a55b-ba0b54f728e8
Ghita, O
7f5ca381-bf5f-41e0-9fdb-314ae4185acf
Whelan, PF
80bc79fe-b56c-4c16-a794-998e8fe580cc
Thirusittampalam, K, Hossain, MJ, Ghita, O and Whelan, PF
(2013)
A novel framework for cellular tracking and mitosis detection in dense phase contrast microscopy images.
IEEE Journal of Biomedical and Health Informatics, 17 (3), .
(doi:10.1109/TITB.2012.2228663).
Abstract
The aim of this paper is to detail the development of a novel tracking framework that is able to extract the cell motility indicators and to determine the cellular division (mitosis) events in large time-lapse phase-contrast image sequences. To address the challenges induced by nonstructured (random) motion, cellular agglomeration, and cellular mitosis, the process of automatic (unsupervised) cell tracking is carried out in a sequential manner, where the interframe cell association is achieved by assessing the variation in the local cellular structures in consecutive frames of the image sequence. In our study, a strong emphasis has been placed on the robust use of the topological information in the cellular tracking process and in the development of targeted pattern recognition techniques that were designed to redress the problems caused by segmentation errors, and to precisely identify mitosis using a backward (reversed) tracking strategy. The proposed algorithm has been evaluated on dense phase-contrast cellular data and the experimental results indicate that the proposed algorithm is able to accurately track epithelial and endothelial cells in time-lapse image sequences that are characterized by low contrast and high level of noise. Our algorithm achieved 86.10% overall tracking accuracy and 90.12% mitosis detection accuracy.
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e-pub ahead of print date: 18 January 2013
Published date: 1 May 2013
Additional Information:
Copyright © 2013, IEEE
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Local EPrints ID: 458175
URI: http://eprints.soton.ac.uk/id/eprint/458175
ISSN: 2168-2194
PURE UUID: c3027e4a-3049-43b8-b69e-33fd78c22c5f
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Date deposited: 30 Jun 2022 16:36
Last modified: 17 Mar 2024 04:12
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Author:
K Thirusittampalam
Author:
MJ Hossain
Author:
O Ghita
Author:
PF Whelan
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