Enhanced Deep Learning Model for Classification of Retinal Optical Coherence Tomography Images

Retinal optical coherence tomography (OCT) imaging is a valuable tool for assessing the condition of the back part of the eye. The condition has a great effect on the specificity of diagnosis, the monitoring of many physiological and pathological procedures, and the response and evaluation of therap...

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Vydáno v:	Sensors (Basel, Switzerland) Ročník 23; číslo 12; s. 5393
Hlavní autoři:	Hassan, Esraa, Elmougy, Samir, Ibraheem, Mai R., Hossain, M. Shamim, AlMutib, Khalid, Ghoneim, Ahmed, AlQahtani, Salman A., Talaat, Fatma M.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Switzerland MDPI AG 01.06.2023 MDPI
Témata:	Accuracy Algorithms artificial intelligence Biometrics Blood vessels Classification Datasets Decision trees Deep Learning Diabetes Diagnosis Eye diseases Health aspects Intraocular lenses Macular degeneration Myopia Neural Networks, Computer optical coherence tomography (OCT) optical sensor technologies Predictive Value of Tests Retina Retina - diagnostic imaging Sensors Signal processing Surgery Tomography Tomography, Optical Coherence - methods Type 2 diabetes Visual impairment Saudi Arabia deep learning optical sensor technologies artificial intelligence optical coherence tomography (OCT)
ISSN:	1424-8220, 1424-8220
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Popis
Shrnutí:	Retinal optical coherence tomography (OCT) imaging is a valuable tool for assessing the condition of the back part of the eye. The condition has a great effect on the specificity of diagnosis, the monitoring of many physiological and pathological procedures, and the response and evaluation of therapeutic effectiveness in various fields of clinical practices, including primary eye diseases and systemic diseases such as diabetes. Therefore, precise diagnosis, classification, and automated image analysis models are crucial. In this paper, we propose an enhanced optical coherence tomography (EOCT) model to classify retinal OCT based on modified ResNet (50) and random forest algorithms, which are used in the proposed study’s training strategy to enhance performance. The Adam optimizer is applied during the training process to increase the efficiency of the ResNet (50) model compared with the common pre-trained models, such as spatial separable convolutions and visual geometry group (VGG) (16). The experimentation results show that the sensitivity, specificity, precision, negative predictive value, false discovery rate, false negative rate accuracy, and Matthew’s correlation coefficient are 0.9836, 0.9615, 0.9740, 0.9756, 0.0385, 0.0260, 0.0164, 0.9747, 0.9788, and 0.9474, respectively.
Bibliografie:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23
ISSN:	1424-8220 1424-8220
DOI:	10.3390/s23125393