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Κυριακή 5 Μαρτίου 2017

Automating Cell Detection and Classification in Human Brain Fluorescent Microscopy Images Using Dictionary Learning and Sparse Coding

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Publication date: Available online 4 March 2017
Source:Journal of Neuroscience Methods
Author(s): Maryana Alegro, Panagiotis Theofilas, Austin Nguy, Patricia A. Castruita, William Seeley, Helmut Heinsen, Daniela M. Ushizima, Lea T. Grinberg
BackgroundImmunofluorescence (IF) plays a major role in quantifying protein expression in situ and understanding cell function. It is widely applied in assessing disease mechanisms and in drug discovery research. Automation of IF analysis can transform studies using experimental cell models. However, IF analysis of postmortem human tissue relies mostly on manual interaction, often subjected to low-throughput and prone to error, leading to low inter and intra-observer reproducibility. Human postmortem brain samples challenges neuroscientists because of the high level of autofluorescence caused by accumulation of lipofuscin pigment during aging, hindering systematic analyses. We propose a method for automating cell counting and classification in IF microscopy of human postmortem brains. Our algorithm speeds up the quantification task while improving reproducibility.New methodDictionary learning and sparse coding allow for constructing improved cell representations using IF images. These models are input for detection and segmentation methods. Classification occurs by means of color distances between cells and a learned set.ResultsOur method successfully detected and classified cells in 49 human brain images. We evaluated our results regarding true positive, false positive, false negative, precision, recall, false positive rate and F1 score metrics. We also measured user-experience and time saved compared to manual countings.Comparison with existing methodsWe compared our results to four open-access IF-based cell-counting tools available in the literature. Our method showed improved accuracy for all data samples.ConclusionThe proposed method satisfactorily detects and classifies cells from human postmortem brain IF images, with potential to be generalized for applications in other counting tasks.



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