Radiomics Signatures of Carotid Plaque on Computed Tomography Angiography

Shi, Jinglong; Sun, Yu; Hou, Jie; Li, X.; Fan, Jitao; Zhang, Libo; Zhang, Rongrong; You, Hongrui; Wang, Zhenguo; Zhang, Anxiaonan; Zhang, Jianhua; Qi, Jin; Zhao, Luping; Yang, Benqiang

doi:10.1007/s00062-023-01289-9

Clin Neuroradiol

2023

DOI: 10.1007/s00062-023-01289-9

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Radiomics Signatures of Carotid Plaque on Computed Tomography Angiography

Jinglong Shi¹,

Yu Sun

Jie Hou

et al.

Abstract: Purpose To develop and validate a combined model incorporating conventional clinical and imaging characteristics and radiomics signatures based on head and neck computed tomography angiography (CTA) to assess plaque vulnerability. Methods We retrospectively analyzed 167 patients with carotid atherosclerosis who underwent head and neck CTA and brain magnetic resonance imaging (MRI) within 1 month. Clinical risk factors and conventional plaque characteristic… Show more

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2024

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Cited by 2 publications

References 39 publications

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Radiomics and artificial intelligence: General notions and applications in the carotid vulnerable plaque

Scicolone,

Vacca,

Pisu

et al. 2024

European Journal of Radiology

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Radiomics and artificial intelligence: General notions and applications in the carotid vulnerable plaque

Scicolone,

Vacca,

Pisu

et al. 2024

European Journal of Radiology

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Deep learning-based defacing tool for CT angiography: CTA-DEFACE

Mahmutoglu,

Rastogi,

Schell

et al. 2024

Eur Radiol Exp

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The growing use of artificial neural network (ANN) tools for computed tomography angiography (CTA) data analysis underscores the necessity for elevated data protection measures. We aimed to establish an automated defacing pipeline for CTA data. In this retrospective study, CTA data from multi-institutional cohorts were utilized to annotate facemasks (n = 100) and train an ANN model, subsequently tested on an external institution’s dataset (n = 50) and compared to a publicly available defacing algorithm. Face detection (MTCNN) and verification (FaceNet) networks were applied to measure the similarity between the original and defaced CTA images. Dice similarity coefficient (DSC), face detection probability, and face similarity measures were calculated to evaluate model performance. The CTA-DEFACE model effectively segmented soft face tissue in CTA data achieving a DSC of 0.94 ± 0.02 (mean ± standard deviation) on the test set. Our model was benchmarked against a publicly available defacing algorithm. After applying face detection and verification networks, our model showed substantially reduced face detection probability (p < 0.001) and similarity to the original CTA image (p < 0.001). The CTA-DEFACE model enabled robust and precise defacing of CTA data. The trained network is publicly accessible at www.github.com/neuroAI-HD/CTA-DEFACE. Relevance statement The ANN model CTA-DEFACE, developed for automatic defacing of CT angiography images, achieves significantly lower face detection probabilities and greater dissimilarity from the original images compared to a publicly available model. The algorithm has been externally validated and is publicly accessible. Key Points The developed ANN model (CTA-DEFACE) automatically generates facemasks for CT angiography images. CTA-DEFACE offers superior deidentification capabilities compared to a publicly available model. By means of graphics processing unit optimization, our model ensures rapid processing of medical images. Our model underwent external validation, underscoring its reliability for real-world application. Graphical Abstract

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Radiomics Signatures of Carotid Plaque on Computed Tomography Angiography

Cited by 2 publications

References 39 publications

Radiomics and artificial intelligence: General notions and applications in the carotid vulnerable plaque

Radiomics and artificial intelligence: General notions and applications in the carotid vulnerable plaque

Deep learning-based defacing tool for CT angiography: CTA-DEFACE

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