基于深度学习的 CT 扫描冠状动脉分割和钙化评分

Sai Koundinya Upadhyayula
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摘要

冠状动脉疾病(CAD)主要由动脉粥样硬化引起,对健康构成重大风险,导致全球死亡率上升。本研究介绍了一种深度学习框架,旨在自动分割冠状动脉并量化 CT 扫描结果中的冠状动脉钙(CAC),从而改善患者的风险分层。利用国家肺筛查试验的数据,我们开发了一个三步模型,包括心脏定位、冠状动脉钙化分割和钙化评分。我们采用了 UNet 架构的各种配置,其中利用自动编码器的扩展 UNet 获得了最高的验证性能,体现在交叉联合(IoU)得分为 0.78,F1 得分为 0.83。该模型的功效已通过人工分割掩膜的验证,展示了其基于 CAC 评分进行准确风险评估的潜力。这种自动化方法大大减少了传统钙质评分所需的时间和专业知识,从而在临床环境中实现了快速、可靠的评估。我们的研究结果表明,深度学习系统能有效地将患者划分为不同的风险类别,突出了它在加强 CAD 管理和改善患者预后方面的潜在作用。这项研究强调了将先进计算技术融入常规临床实践的可行性,为更有效的心血管风险分层铺平了道路。
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Deep Learning based CT-scan Coronary Artery Segmentation and Calcium Scoring
Coronary artery disease (CAD), primarily driven by atherosclerosis, poses significant health risks, contributing to a rising mortality rate globally. This study introduces a deep learning framework designed for the automated segmentation of coronary arteries and quantification of coronary artery calcium (CAC) from CT scans, facilitating improved risk stratification in patients. Leveraging data from the National Lung Screening Trial, we developed a three-step model that includes heart localization, coronary calcium segmentation, and calcium scoring. Various configurations of the UNet architecture were employed, with the Extended UNet utilizing an autoencoder achieving the highest validation performance, reflected by an Intersection over Union (IoU) score of 0.78 and an F1 score of 0.83. The model's efficacy was validated against manually segmented masks, showcasing its potential for accurate risk assessment based on CAC scores. This automated approach significantly reduces the time and expertise required for traditional calcium scoring, enabling rapid and reliable assessments in clinical settings. Our findings indicate that the deep learning system can effectively classify patients into risk categories, underscoring its potential utility in enhancing the management of CAD and improving patient outcomes. This research highlights the feasibility of integrating advanced computational techniques into routine clinical practice, paving the way for more efficient cardiovascular risk stratification.
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