An automated method for cell detection in Zebrafish

Tianming Liu; Gang Li; Jingxin Nie; Ashley Tarokh; Xiaobo Zhou; Lei Guo; Jarema Malicki; Weiming Xia; Stephen T.C. Wong

doi:10.1007/s12021-007-9005-7

An automated method for cell detection in Zebrafish

Tianming Liu, Gang Li, Jingxin Nie, Ashley Tarokh, Xiaobo Zhou, Lei Guo, Jarema Malicki, Weiming Xia, Stephen T.C. Wong

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

39 Scopus citations

Abstract

Quantification of cells is a critical step towards the assessment of cell fate in neurological disease or developmental models. Here, we present a novel cell detection method for the automatic quantification of zebrafish neuronal cells, including primary motor neurons, Rohon-Beard neurons, and retinal cells. Our method consists of four steps. First, a diffused gradient vector field is produced. Subsequently, the orientations and magnitude information of diffused gradients are accumulated, and a response image is computed. In the third step, we perform non-maximum suppression on the response image and identify the detection candidates. In the fourth and final step the detected objects are grouped into clusters based on their color information. Using five different datasets depicting zebrafish cells, we show that our method consistently displays high sensitivity and specificity of over 95%. Our results demonstrate the general applicability of this method to different data samples, including nuclear staining, immunohistochemistry, and cell death detection.

Original language	English (US)
Pages (from-to)	5-21
Number of pages	17
Journal	Neuroinformatics
Volume	6
Issue number	1
DOIs	https://doi.org/10.1007/s12021-007-9005-7
State	Published - Mar 2008

Keywords

Alzheimer's disease
Image processing
Modeling
Neuronal cell detection
Retina development
Zebrafish

ASJC Scopus subject areas

Neuroscience(all)
Information Systems
Software

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10.1007/s12021-007-9005-7

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title = "An automated method for cell detection in Zebrafish",

abstract = "Quantification of cells is a critical step towards the assessment of cell fate in neurological disease or developmental models. Here, we present a novel cell detection method for the automatic quantification of zebrafish neuronal cells, including primary motor neurons, Rohon-Beard neurons, and retinal cells. Our method consists of four steps. First, a diffused gradient vector field is produced. Subsequently, the orientations and magnitude information of diffused gradients are accumulated, and a response image is computed. In the third step, we perform non-maximum suppression on the response image and identify the detection candidates. In the fourth and final step the detected objects are grouped into clusters based on their color information. Using five different datasets depicting zebrafish cells, we show that our method consistently displays high sensitivity and specificity of over 95%. Our results demonstrate the general applicability of this method to different data samples, including nuclear staining, immunohistochemistry, and cell death detection.",

keywords = "Alzheimer's disease, Image processing, Modeling, Neuronal cell detection, Retina development, Zebrafish",

author = "Tianming Liu and Gang Li and Jingxin Nie and Ashley Tarokh and Xiaobo Zhou and Lei Guo and Jarema Malicki and Weiming Xia and Wong, {Stephen T.C.}",

note = "Funding Information: Acknowledgements The software and sample dataset used in this paper are released at the website: http://www.cbi-platform.net/. We would like to thank Dr. William Campbell, Jacqueline Sears and Melvin Zhang for zebrafish image acquisition and analysis, and thank Dr. Scott Holley for providing the zebrafish images in Fig. 11. This work is funded by the NIH AG015379 (WX) and a Bioinformatics Research Center Program Grant from HCNR (STCW).",

year = "2008",

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doi = "10.1007/s12021-007-9005-7",

language = "English (US)",

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AU - Liu, Tianming

AU - Li, Gang

AU - Nie, Jingxin

AU - Tarokh, Ashley

AU - Zhou, Xiaobo

AU - Guo, Lei

AU - Malicki, Jarema

AU - Xia, Weiming

AU - Wong, Stephen T.C.

N1 - Funding Information: Acknowledgements The software and sample dataset used in this paper are released at the website: http://www.cbi-platform.net/. We would like to thank Dr. William Campbell, Jacqueline Sears and Melvin Zhang for zebrafish image acquisition and analysis, and thank Dr. Scott Holley for providing the zebrafish images in Fig. 11. This work is funded by the NIH AG015379 (WX) and a Bioinformatics Research Center Program Grant from HCNR (STCW).

PY - 2008/3

Y1 - 2008/3

N2 - Quantification of cells is a critical step towards the assessment of cell fate in neurological disease or developmental models. Here, we present a novel cell detection method for the automatic quantification of zebrafish neuronal cells, including primary motor neurons, Rohon-Beard neurons, and retinal cells. Our method consists of four steps. First, a diffused gradient vector field is produced. Subsequently, the orientations and magnitude information of diffused gradients are accumulated, and a response image is computed. In the third step, we perform non-maximum suppression on the response image and identify the detection candidates. In the fourth and final step the detected objects are grouped into clusters based on their color information. Using five different datasets depicting zebrafish cells, we show that our method consistently displays high sensitivity and specificity of over 95%. Our results demonstrate the general applicability of this method to different data samples, including nuclear staining, immunohistochemistry, and cell death detection.

AB - Quantification of cells is a critical step towards the assessment of cell fate in neurological disease or developmental models. Here, we present a novel cell detection method for the automatic quantification of zebrafish neuronal cells, including primary motor neurons, Rohon-Beard neurons, and retinal cells. Our method consists of four steps. First, a diffused gradient vector field is produced. Subsequently, the orientations and magnitude information of diffused gradients are accumulated, and a response image is computed. In the third step, we perform non-maximum suppression on the response image and identify the detection candidates. In the fourth and final step the detected objects are grouped into clusters based on their color information. Using five different datasets depicting zebrafish cells, we show that our method consistently displays high sensitivity and specificity of over 95%. Our results demonstrate the general applicability of this method to different data samples, including nuclear staining, immunohistochemistry, and cell death detection.

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KW - Modeling

KW - Neuronal cell detection

KW - Retina development

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An automated method for cell detection in Zebrafish

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Keywords

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