Retinal Vessel Centerline Extraction Using Multiscale Matched Filters, Confidence and Edge Measures

Sofka, Michal; Stewart, Charles

doi:10.1109/tmi.2006.884190

Cited by 306 publications

(189 citation statements)

References 64 publications

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“…blood vessels, in digital images (Chaudhuri et al, 1989;Zhang et al, 2010;Fraz et al, 2012). Here, we apply a filter kernel, as proposed in Sofka and Stewart (2006). The rectangular kernel mask is composed of a Mexican hat profile in normal and a constant profile in tangential direction.…”

Section: Cell Boundary Segmentation and Region Filteringmentioning

confidence: 99%

PaCeQuant: A Tool for High-Throughput Quantification of Pavement Cell Shape Characteristics

et al. 2017

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Section: Cell Boundary Segmentation and Region Filteringmentioning

confidence: 99%

PaCeQuant: A Tool for High-Throughput Quantification of Pavement Cell Shape Characteristics

et al. 2017

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“…Typically, these methods can be classified into intensity-based, featurebased, or hybrid-based methods. Feature-based methods extract features from a retinal image first, such as vascular bifurcation points [3], whole vasculature [4], and optic disk [5]. Then, the registration process that finds the best transform parameters is performed by maximizing a similarity measure based on correspondences of the extracted features.…”

Section: Introductionmentioning

confidence: 99%

Hybrid Retinal Image Registration Using Mutual Information and Salient Features

Ju¹,

Loew

Ku³

et al. 2016

IEICE Trans. Inf. & Syst.

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SUMMARYThis paper presents a method for registering retinal images. Retinal image registration is crucial for the diagnoses and treatments of various eye conditions and diseases such as myopia and diabetic retinopathy. Retinal image registration is challenging because the images have non-uniform contrasts and intensity distributions, as well as having large homogeneous non-vascular regions. This paper provides a new retinal image registration method by effectively combining expectation maximization principal component analysis based mutual information (EMPCA-MI) with salient features. Experimental results show that our method is more efficient and robust than the conventional EMPCA-MI method.

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“…This method has been used primarily for vessel detection [19,20] and tissue classification [21] in the field of medical image analysis. In this study, multiple scale analysis is used to correctly detect the lung junction with various sizes.…”

Section: The Proposed Lung Separation Methodsmentioning

confidence: 99%

Automatic Left and Right Lung Separation Using Free-Formed Surface Fitting on Volumetric CT

et al. 2014

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This study presents a completely automated method for separating the left and right lungs using free-formed surface fitting on volumetric computed tomography (CT). The left and right lungs are roughly divided using iterative 3-dimensional morphological operator and a Hessian matrix analysis. A point set traversing between the initial left and right lungs is then detected with a Euclidean distance transform to determine the optimal separating surface, which is then modeled from the point set using a free-formed surfacefitting algorithm. Subsequently, the left and right lung volumes are smoothly and directly separated using the separating surface. The performance of the proposed method was estimated by comparison with that of a human expert on 44 CT examinations. For all data sets, averages of the root mean square surface distance, maximum surface distance, and volumetric overlap error between the results of the automatic and the manual methods were 0.032 mm, 2.418 mm, and 0.017 %, respectively. Our study showed the feasibility of automatically separating the left and right lungs by identifying the 3D continuous separating surface on volumetric chest CT images.

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Retinal Vessel Centerline Extraction Using Multiscale Matched Filters, Confidence and Edge Measures

Cited by 306 publications

References 64 publications

PaCeQuant: A Tool for High-Throughput Quantification of Pavement Cell Shape Characteristics

PaCeQuant: A Tool for High-Throughput Quantification of Pavement Cell Shape Characteristics

Hybrid Retinal Image Registration Using Mutual Information and Salient Features

Automatic Left and Right Lung Separation Using Free-Formed Surface Fitting on Volumetric CT

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