Statistical Inference of Biological Structure and Point Spread Functions in 3D Microscopy

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Third International Symposium on 3D Data Processing, Visualization, and Transmission (3DPVT'06)

University of North Carolina, Chapel Hill, USA

June 14-June 16

ISBN: 0-7695-2825-2

	ASCII Text	x
	Joseph Schlecht, Kobus Barnard, Barry Pryor, "Statistical Inference of Biological Structure and Point Spread Functions in 3D Microscopy," 3D Data Processing Visualization and Transmission, International Symposium on, pp. 373-380, Third International Symposium on 3D Data Processing, Visualization, and Transmission (3DPVT'06), 2006.

	BibTex	x
	@article{ 10.1109/3DPVT.2006.131, author = {Joseph Schlecht and Kobus Barnard and Barry Pryor}, title = {Statistical Inference of Biological Structure and Point Spread Functions in 3D Microscopy}, journal ={3D Data Processing Visualization and Transmission, International Symposium on}, volume = {0}, year = {2006}, isbn = {0-7695-2825-2}, pages = {373-380}, doi = {http://doi.ieeecomputersociety.org/10.1109/3DPVT.2006.131}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - 3D Data Processing Visualization and Transmission, International Symposium on TI - Statistical Inference of Biological Structure and Point Spread Functions in 3D Microscopy SN - 0-7695-2825-2 SP373 EP380 A1 - Joseph Schlecht, A1 - Kobus Barnard, A1 - Barry Pryor, PY - 2006 KW - null VL - 0 JA - 3D Data Processing Visualization and Transmission, International Symposium on ER -

Joseph Schlecht, University of Arizona, USA

Kobus Barnard, University of Arizona, USA

Barry Pryor, University of Arizona, USA

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/3DPVT.2006.131

We present a novel method for detecting and quantifying 3D structure in stacks of microscopic images captured at incremental focal lengths. We express the image data as stochastically generated by an underlying model for biological specimen and the effects of the imaging system. The method simultaneously fits a model for proposed structure and the imaging system?s parameters, which include a model of the point spread function.

We demonstrate our approach by detecting spores in image stacks of Alternaria, a microscopic genus of fungus. The spores are modeled as opaque ellipsoids and fit to the data using statistical inference. Since the number of spores in the data is not known, model selection is incorporated into the fitting process. Thus, we develop a reversible jump Markov chainMonte Carlo sampler to explore the parameter space.

Our results show that simultaneous statistical inference of specimen and imaging models is useful for quantifying biological structures in 3D microscopic images. In addition, we show that inferring a model of the imaging system improves the overall fit of the specimen model to the data.

Citation:

Joseph Schlecht, Kobus Barnard, Barry Pryor, "Statistical Inference of Biological Structure and Point Spread Functions in 3D Microscopy," 3dpvt, pp.373-380, Third International Symposium on 3D Data Processing, Visualization, and Transmission (3DPVT'06), 2006

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