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Fast Retinal Vessel Detection and Measurement Using Wavelets and Edge Location Refinement

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  • Peter Bankhead
  • C Norman Scholfield
  • J Graham McGeown
  • Tim M Curtis

Abstract

The relationship between changes in retinal vessel morphology and the onset and progression of diseases such as diabetes, hypertension and retinopathy of prematurity (ROP) has been the subject of several large scale clinical studies. However, the difficulty of quantifying changes in retinal vessels in a sufficiently fast, accurate and repeatable manner has restricted the application of the insights gleaned from these studies to clinical practice. This paper presents a novel algorithm for the efficient detection and measurement of retinal vessels, which is general enough that it can be applied to both low and high resolution fundus photographs and fluorescein angiograms upon the adjustment of only a few intuitive parameters. Firstly, we describe the simple vessel segmentation strategy, formulated in the language of wavelets, that is used for fast vessel detection. When validated using a publicly available database of retinal images, this segmentation achieves a true positive rate of 70.27%, false positive rate of 2.83%, and accuracy score of 0.9371. Vessel edges are then more precisely localised using image profiles computed perpendicularly across a spline fit of each detected vessel centreline, so that both local and global changes in vessel diameter can be readily quantified. Using a second image database, we show that the diameters output by our algorithm display good agreement with the manual measurements made by three independent observers. We conclude that the improved speed and generality offered by our algorithm are achieved without sacrificing accuracy. The algorithm is implemented in MATLAB along with a graphical user interface, and we have made the source code freely available.

Suggested Citation

  • Peter Bankhead & C Norman Scholfield & J Graham McGeown & Tim M Curtis, 2012. "Fast Retinal Vessel Detection and Measurement Using Wavelets and Edge Location Refinement," PLOS ONE, Public Library of Science, vol. 7(3), pages 1-12, March.
  • Handle: RePEc:plo:pone00:0032435
    DOI: 10.1371/journal.pone.0032435
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    Cited by:

    1. Sofía Ortín Vela & Michael J. Beyeler & Olga Trofimova & Ilaria Iuliani & Jose D. Vargas Quiros & Victor A. Vries & Ilenia Meloni & Adham Elwakil & Florence Hoogewoud & Bart Liefers & David Presby & W, 2024. "Phenotypic and genetic characteristics of retinal vascular parameters and their association with diseases," Nature Communications, Nature, vol. 15(1), pages 1-17, December.
    2. Xinhua Nie & Zhongming Pan & Dasha Zhang & Han Zhou & Min Chen & Wenna Zhang, 2014. "Energy Detection Based on Undecimated Discrete Wavelet Transform and Its Application in Magnetic Anomaly Detection," PLOS ONE, Public Library of Science, vol. 9(10), pages 1-7, October.
    3. Quanyu Zhou & Zhenyue Chen & Yu-Hang Liu & Mohamad El Amki & Chaim Glück & Jeanne Droux & Michael Reiss & Bruno Weber & Susanne Wegener & Daniel Razansky, 2022. "Three-dimensional wide-field fluorescence microscopy for transcranial mapping of cortical microcirculation," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    4. Wendeson S Oliveira & Joyce Vitor Teixeira & Tsang Ing Ren & George D C Cavalcanti & Jan Sijbers, 2016. "Unsupervised Retinal Vessel Segmentation Using Combined Filters," PLOS ONE, Public Library of Science, vol. 11(2), pages 1-21, February.

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