Abstract
Several clinical studies reveal the relationship between alterations in the topologies of the human retinal blood vessel, the outcrop and the disease evolution, such as diabetic retinopathy, hypertensive retinopathy, and macular degeneration. Indeed, the detection of these vascular changes always has gaps. In addition, the manual steps are slow, which may be subjected to a bias of the perceiver. However, we can overcome these troubles using computer algorithms that are quicker and more accurate. This paper presents and investigates a novel method for measuring the blood vessel diameter in the retinal image. The proposed method is based on a thresholding segmentation and thinning step, followed by the characteristic point determination step by the Douglas-Peucker algorithm. Thereafter, it uses the active contours to detect vessel contour. Finally, Heron’s Formula is applied to assure the calculation of vessel diameter. The obtained results for six sample images showed that the proposed method generated less errors compared to other techniques, which confirms the high performance of the proposed method.
Highlights
Medical imaging encompasses methods for imaging human organs; this advanced technology makes it possible to improve the diagnosis and effective treatments of these organs [1,2,3,4]
The system was implemented on a personal computer (PC) with an Intel Pentium B960 CPU @
The determination of the blood vessel diameter using image analysis necessitates the initial segmentation of the retinal image so as to produce binary images
Summary
Medical imaging encompasses methods for imaging human organs; this advanced technology makes it possible to improve the diagnosis and effective treatments of these organs [1,2,3,4]. Blood vessels play a pivotal role in the discovery, the observation, and the diagnosis of some medical conditions [7,8,9,10]. Retinal vessels may be affected by certain diseases such as diabetic retinopathy, hypertensive retinopathy, and macular degeneration [7,8]. They affect the structural characteristics of the blood vessels of the human retina. The study and the analysis of the vessel geometric characteristics such as vessel diameter, branch angles, and branch lengths have become the basis of medical applications related to early diagnosis and effective monitoring of these diseases
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