Novel methods for microglia segmentation, feature extraction, and classification

Yuchun Ding; Marie Christine Pardon; Alessandra Agostini; Henryk Faas; Jinming Duan; Wil O.C. Ward; Felicity Easton; Dorothee Auer; Li Bai

doi:10.1109/TCBB.2016.2591520

Novel methods for microglia segmentation, feature extraction, and classification

Yuchun Ding, Marie Christine Pardon, Alessandra Agostini, Henryk Faas, Jinming Duan, Wil O.C. Ward, Felicity Easton, Dorothee Auer, Li Bai

Computer Science

Research output: Contribution to journal › Article › peer-review

19 Citations (Scopus)

Abstract

Segmentation and analysis of histological images provides a valuable tool to gain insight into the biology and function of microglial cells in health and disease. Common image segmentation methods are not suitable for inhomogeneous histology image analysis and accurate classification of microglial activation states has remained a challenge. In this paper, we introduce an automated image analysis framework capable of efficiently segmenting microglial cells from histology images and analyzing their morphology. The framework makes use of variational methods and the fast-split Bregman algorithm for image denoising and segmentation, and of multifractal analysis for feature extraction to classify microglia by their activation states. Experiments show that the proposed framework is accurate and scalable to large datasets and provides a useful tool for the study of microglial biology.

Original language	English
Pages (from-to)	1366-1377
Number of pages	12
Journal	IEEE/ACM Transactions on Computational Biology and Bioinformatics
Volume	14
Issue number	6
Early online date	14 Jul 2016
DOIs	https://doi.org/10.1109/TCBB.2016.2591520
Publication status	Published - 7 Dec 2017

Keywords

fast Fourier transform
fast split Bregman
histology data analysis
Microglia analysis
multifractal analysis
Mumford-Shah

ASJC Scopus subject areas

Biotechnology
Genetics
Applied Mathematics

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http://eprints.nottingham.ac.uk/id/eprint/36230Licence: None: All rights reserved

Cite this

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title = "Novel methods for microglia segmentation, feature extraction, and classification",

abstract = "Segmentation and analysis of histological images provides a valuable tool to gain insight into the biology and function of microglial cells in health and disease. Common image segmentation methods are not suitable for inhomogeneous histology image analysis and accurate classification of microglial activation states has remained a challenge. In this paper, we introduce an automated image analysis framework capable of efficiently segmenting microglial cells from histology images and analyzing their morphology. The framework makes use of variational methods and the fast-split Bregman algorithm for image denoising and segmentation, and of multifractal analysis for feature extraction to classify microglia by their activation states. Experiments show that the proposed framework is accurate and scalable to large datasets and provides a useful tool for the study of microglial biology.",

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author = "Yuchun Ding and Pardon, {Marie Christine} and Alessandra Agostini and Henryk Faas and Jinming Duan and Ward, {Wil O.C.} and Felicity Easton and Dorothee Auer and Li Bai",

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doi = "10.1109/TCBB.2016.2591520",

language = "English",

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T1 - Novel methods for microglia segmentation, feature extraction, and classification

AU - Ding, Yuchun

AU - Pardon, Marie Christine

AU - Agostini, Alessandra

AU - Faas, Henryk

AU - Duan, Jinming

AU - Ward, Wil O.C.

AU - Easton, Felicity

AU - Auer, Dorothee

AU - Bai, Li

PY - 2017/12/7

Y1 - 2017/12/7

N2 - Segmentation and analysis of histological images provides a valuable tool to gain insight into the biology and function of microglial cells in health and disease. Common image segmentation methods are not suitable for inhomogeneous histology image analysis and accurate classification of microglial activation states has remained a challenge. In this paper, we introduce an automated image analysis framework capable of efficiently segmenting microglial cells from histology images and analyzing their morphology. The framework makes use of variational methods and the fast-split Bregman algorithm for image denoising and segmentation, and of multifractal analysis for feature extraction to classify microglia by their activation states. Experiments show that the proposed framework is accurate and scalable to large datasets and provides a useful tool for the study of microglial biology.

AB - Segmentation and analysis of histological images provides a valuable tool to gain insight into the biology and function of microglial cells in health and disease. Common image segmentation methods are not suitable for inhomogeneous histology image analysis and accurate classification of microglial activation states has remained a challenge. In this paper, we introduce an automated image analysis framework capable of efficiently segmenting microglial cells from histology images and analyzing their morphology. The framework makes use of variational methods and the fast-split Bregman algorithm for image denoising and segmentation, and of multifractal analysis for feature extraction to classify microglia by their activation states. Experiments show that the proposed framework is accurate and scalable to large datasets and provides a useful tool for the study of microglial biology.

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KW - fast split Bregman

KW - histology data analysis

KW - Microglia analysis

KW - multifractal analysis

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Novel methods for microglia segmentation, feature extraction, and classification

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

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Cite this