RT info:eu-repo/semantics/article T1 Early-stage atherosclerosis detection using deep learning over carotid ultrasound images A1 Menchón Lara, Rosa María A1 Sancho-Gómez, José-Luis A1 Bueno-Crespo, Andrés AB This paper proposes a computer-aided diagnosis tool for the early detection of atherosclerosis. This pathology is responsible for major cardiovascular diseases, which are the main cause of death worldwide. Among preventive measures, the intima-media thickness (IMT) of the common carotid artery stands out as early indicator of atherosclerosis and cardiovascular risk. In particular, IMT is evaluated by means of ultrasound scans. Usually, during the radiological examination, the specialist detects the optimal measurement area, identifies the layers of the arterial wall and manually marks pairs of points on the image to estimate the thickness of the artery. Therefore, this manual procedure entails subjectivity and variability in the IMT evaluation. Instead, this article suggests a fully automatic segmentation technique for ultrasound images of the common carotid artery. The proposed methodology is based on machine learning and artificial neural networks for the recognition of IMT intensity patterns in the images. For this purpose, a deep learning strategy has been developed to obtain abstract and efficient data representations by means of auto-encoders with multiple hidden layers. In particular, the considered deep architecture has been designed under the concept of extreme learning machine (ELM). The correct identification of the arterial layers is achieved in a totally user-independent and repeatable manner, which not only improves the IMT measurement in daily clinical practice but also facilitates the clinical research. A database consisting of 67 ultrasound images has been used in the validation of the suggested system, in which the resulting automatic contours for each image have been compared with the average of four manual segmentations performed by two different observers (ground-truth). Specifically, the IMT measured by the proposed algorithm is 0.625±0.167mm (mean±standard deviation), whereas the corresponding ground-truth value is 0.619±0.176mm. Thus, our method shows a difference between automatic and manual measures of only 5.79±34.42μm. Furthermore, different quantitative evaluations reported in this paper indicate that this procedure outperforms other methods presented in the literature. SN 1568-4946 YR 2016 FD 2016 LK https://uvadoc.uva.es/handle/10324/65871 UL https://uvadoc.uva.es/handle/10324/65871 LA spa NO Applied Soft Computing, vol. 49, 616-628 DS UVaDOC RD 28-nov-2024