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Automatic Segmentation of Thermal Images of Diabetic-At-Risk Feet Using the Snakes Algorithm Publisher



Etehadtavakol M1 ; Ng EYK2 ; Kaabouch N3
Authors
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Authors Affiliations
  1. 1. Isfahan University of Medical Sciences, Isfahan, 81745-319, Iran
  2. 2. School of Mechanical and Aerospace Engineering, College of Engineering, Nanyang Technological University, 50 Nanyang Avenue, Singapore, 639798, Singapore
  3. 3. Computer Science Department, University of North Dakota, 58202, ND, United States

Source: Infrared Physics and Technology Published:2017


Abstract

Diabetes is a disease with multi-systemic problems. It is a leading cause of death, medical costs, and loss of productivity. Foot ulcers are one generally known problem of uncontrolled diabetes that can lead to amputation signs of foot ulcers are not always obvious. Sometimes, symptoms won't even show up until ulcer is infected. Hence, identification of pre-ulceration of the plantar surface of the foot in diabetics is beneficial. Thermography has the potential to identify regions of the plantar with no evidence of ulcer but yet risk. Thermography is a technique that is safe, easy, non-invasive, with no contact, and repeatable. In this study, 59 thermographic images of the plantar foot of patients with diabetic neuropathy are implemented using the snakes algorithm to separate two feet from background automatically and separating the right foot from the left on each image. The snakes algorithm both separates the right and left foot into segmented different clusters according to their temperatures. The hottest regions will have the highest risk of ulceration for each foot. This algorithm also worked perfectly for all the current images. © 2017
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