N Chapman1, N Witt, X Gao, A A Bharath, A V Stanton, S A Thom, A D Hughes. 1. Department of Clinical Pharmacology, School of Medicine at NHLI, Imperial College of Science, Technology and Medicine, St Mary's Hospital, London W2 1NY, UK. n.chapman@ic.ac.uk
Abstract
AIMS: Quantification of retinal vascular change is difficult and manual measurements of vascular features are slow and subject to observer bias. These problems may be overcome using computer algorithms. Three automated methods and a manual method for measurement of arteriolar diameters from digitised red-free retinal photographs were compared. METHODS: 60 diameters (in pixels) measured by manual identification of vessel edges in red-free retinal images were compared with diameters measured by (1) fitting vessel intensity profiles to a double Gaussian function by non-linear regression, (2) a standard edge detection algorithm (Sobel), and (3) determination of points of maximum intensity variation by a sliding linear regression filter (SLRF). Method agreement was analysed using Bland-Altman plots and the repeatability of each method was assessed. RESULTS: Diameter estimations obtained using the SLRF method were the least scattered although diameters obtained were approximately 3 pixels greater than those measured manually. The SLRF method was the most repeatable and the Gaussian method less so. The Sobel method was the least consistent owing to frequent misinterpretation of the light reflex as the vessel edge. CONCLUSION: Of the three automated methods compared, the SLRF method was the most consistent (defined as the method producing diameter estimations with the least scatter) and the most repeatable in measurements of retinal arteriolar diameter. Application of automated methods of retinal vascular analysis may be useful in the assessment of cardiovascular and other diseases.
AIMS: Quantification of retinal vascular change is difficult and manual measurements of vascular features are slow and subject to observer bias. These problems may be overcome using computer algorithms. Three automated methods and a manual method for measurement of arteriolar diameters from digitised red-free retinal photographs were compared. METHODS: 60 diameters (in pixels) measured by manual identification of vessel edges in red-free retinal images were compared with diameters measured by (1) fitting vessel intensity profiles to a double Gaussian function by non-linear regression, (2) a standard edge detection algorithm (Sobel), and (3) determination of points of maximum intensity variation by a sliding linear regression filter (SLRF). Method agreement was analysed using Bland-Altman plots and the repeatability of each method was assessed. RESULTS: Diameter estimations obtained using the SLRF method were the least scattered although diameters obtained were approximately 3 pixels greater than those measured manually. The SLRF method was the most repeatable and the Gaussian method less so. The Sobel method was the least consistent owing to frequent misinterpretation of the light reflex as the vessel edge. CONCLUSION: Of the three automated methods compared, the SLRF method was the most consistent (defined as the method producing diameter estimations with the least scatter) and the most repeatable in measurements of retinal arteriolar diameter. Application of automated methods of retinal vascular analysis may be useful in the assessment of cardiovascular and other diseases.
Authors: Boyu Gu; Xiaolin Wang; Michael D Twa; Johnny Tam; Christopher A Girkin; Yuhua Zhang Journal: Biomed Opt Express Date: 2018-07-12 Impact factor: 3.732
Authors: Nicholas W Witt; Neil Chapman; Simon A McG Thom; Alice V Stanton; Kim H Parker; Alun D Hughes Journal: Artery Res Date: 2010-09 Impact factor: 0.597
Authors: Alun D Hughes; Tien Y Wong; Nicholas Witt; Richard Evans; Simon A Mcg Thom; Barbara E Klein; Nish Chaturvedi; Ronald Klein Journal: Microcirculation Date: 2009-02 Impact factor: 2.628
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Authors: Robyn J Tapp; Cathy Williams; Nicholas Witt; Nish Chaturvedi; Richard Evans; Simon A McG Thom; Alun D Hughes; Andrew Ness Journal: Pediatrics Date: 2007-11 Impact factor: 7.124