Intravital leukocyte detection using the gradient inverse coefficient of variation

Dong, Gang; Acton, Scott T.

doi:10.1109/tmi.2005.846856

Cited by 50 publications

(3 citation statements)

References 29 publications

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“…Dong et al [128] have proposed a Bayesian classification based leukocyte detection algorithm on intravital microscopy images, which is composed of three steps: 1) conduct ellipse matching to produce maximal gradient inverse coefficient of variation (GICOV), 2) refine cell contours using B-spline snake with the GICOV constraint, and 3) retain the optimal contours based on a learned Bayesian classifier. A mitotic cell detection method presented in [129] learns a discriminative dictionary with sparse representation and conducts mitosis classification based on the sparse reconstruction errors [168].…”

Section: Nucleus and Cell Detection Methodsmentioning

confidence: 99%

Robust Nucleus/Cell Detection and Segmentation in Digital Pathology and Microscopy Images: A Comprehensive Review

Xing

Yang

2016

IEEE Rev. Biomed. Eng.

427

220

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Digital pathology and microscopy image analysis is widely used for comprehensive studies of cell morphology or tissue structure. Manual assessment is labor intensive and prone to inter-observer variations. Computer-aided methods, which can significantly improve the objectivity and reproducibility, have attracted a great deal of interest in recent literatures. Among the pipeline of building a computer-aided diagnosis system, nucleus or cell detection and segmentation play a very important role to describe the molecular morphological information. In the past few decades, many efforts have been devoted to automated nucleus/cell detection and segmentation. In this review, we provide a comprehensive summary of the recent state-of-the-art nucleus/cell segmentation approaches on different types of microscopy images including bright-field, phase-contrast, differential interference contrast (DIC), fluorescence, and electron microscopies. In addition, we discuss the challenges for the current methods and the potential future work of nucleus/cell detection and segmentation.

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Section: Nucleus and Cell Detection Methodsmentioning

confidence: 99%

Robust Nucleus/Cell Detection and Segmentation in Digital Pathology and Microscopy Images: A Comprehensive Review

Xing

Yang

2016

IEEE Rev. Biomed. Eng.

427

220

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“…By following this technique, intensity of infection would be accurately determined. The patient can be verified for complete cure, and the treatment can be suspended [9]. …”

Section: Introductionmentioning

confidence: 99%

Smart Spotting of Pulmonary TB Cavities Using CT Images

Swanly¹,

Selvam²,

Kumar³

et al. 2013

Computational and Mathematical Methods in Medicine

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One third of the world's population is thought to have been infected with mycobacterium tuberculosis (TB) with new infection occurring at a rate of about one per second. TB typically attacks the lungs. Indication of cavities in upper lobes of lungs shows the high infection. Traditionally, it has been detected manually by physicians. But the automatic technique proposed in this paper focuses on accurate detection of disease by computed tomography (CT) using computer-aided detection (CAD) system. The various steps of the detection process include the following: (i) image preprocessing, which is done by techniques such as resizing, masking, and Gaussian smoothening, (ii) image egmentation that is implemented by using mean-shift model and gradient vector flow (GVF) model, (iii) feature extraction that can be achieved by Gradient inverse coefficient of variation and circularity measure, and (iv) classification using Bayesian classifier. Experimental results show that its perfection of detecting cavities is very accurate in low false positive rate (FPR).

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“…8 Visually counting the cells is a tedious process, requiring tens of hours for several minutes of video. Automated approaches have been developed for detecting 9 and tracking 10 B-cells in vivo and in vitro, 11 but are computationally expensive, requiring many hours for one single video. Recently, Boyer et al 12 enhanced the tracking process using a Compute…”

Section: Introductionmentioning

confidence: 99%

An optical counting technique with vertical hydrodynamic focusing for biological cells

2010

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A barrier in scaling laboratory processes into automated microfluidic devices has been the transfer of laboratory based assays: Where engineering meets biological protocol. One basic requirement is to reliably and accurately know the distribution and number of biological cells being dispensed. In this study, a novel optical counting technique to efficiently quantify the number of cells flowing into a microtube is presented. REH, B-lymphoid precursor leukemia, are stained with a fluorescent dye and frames of moving cells are recorded using a charge coupled device ͑CCD͒ camera. The basic principle is to calculate the total fluorescence intensity of the image and to divide it by the average intensity of a single cell. This method allows counting the number of cells with an uncertainty Ϯ5%, which compares favorably to the standard biological methodology, based on the manual Trypan Blue assay, which is destructive to the cells and presents an uncertainty in the order of 20%. The use of a microdevice for vertical hydrodynamic focusing, which can reduce the background noise of out of focus cells by concentrating the cells in a thin layer, has further improved the technique. Computational fluid dynamics ͑CFD͒ simulation and confocal laser scanning microscopy images have shown an 82% reduction in the vertical displacement of the cells. For the flow rates imposed during this study, a throughput of 100-200 cells/s is achieved.

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Intravital leukocyte detection using the gradient inverse coefficient of variation

Cited by 50 publications

References 29 publications

Robust Nucleus/Cell Detection and Segmentation in Digital Pathology and Microscopy Images: A Comprehensive Review

Robust Nucleus/Cell Detection and Segmentation in Digital Pathology and Microscopy Images: A Comprehensive Review

Smart Spotting of Pulmonary TB Cavities Using CT Images

An optical counting technique with vertical hydrodynamic focusing for biological cells

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