利用学习型 LSTM 生成对抗网络从 CTP 动态图像合成 CT 灌注图,用于急性缺血性中风评估

IF 3.5 3区 医学 Q1 HEALTH CARE SCIENCES & SERVICES
Mohsen Soltanpour, Pierre Boulanger, Brian Buck
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引用次数: 0

摘要

计算机断层扫描灌注(CTP)是一种动态四维成像技术(在约 1 分钟内捕获三维容积),通过跟踪静脉注射的造影剂通过大脑的连续成像来量化脑血流。为了诊断和评估急性缺血性脑卒中,标准方法是对获取的 CTP 在时间轴上进行汇总,以创建显示不同血流动力学参数的地图,例如栓剂到达和通过的时间(Tmax 和 MTT)、脑血流量(CBF)和脑血容量(CBV)。然而,绘制精确的 CTP 地图需要选择动脉输入函数 (AIF),即脑供血大动脉之一的时间-浓度曲线,这是一个极易出错的过程。此外,在大约一分钟的 CT 扫描过程中,大脑会暴露在电离辐射中,电离辐射会改变组织成分,并产生增加癌症风险的自由基。本文提出了一种新颖的端到端深度神经网络,利用学习型 LSTM-GAN 生成对抗网络(LSTM-GAN)合成 CTP 图像,生成 CTP 地图。我们提出的方法省去了容易出错且依赖专家的 AIF 选择步骤,从而提高了 CTP 地图提取的精度和通用性。此外,我们的 LSTM-GAN 不需要整个 CTP 时间序列,可以用较少的时间点生成 CTP 地图。通过将扫描序列从大约 40 个时间点减少到 9 个时间点,所提出的方法有可能最大限度地缩短扫描时间,从而减少患者对 CT 辐射的暴露。我们使用由 63 名患者组成的 ISLES 2018 挑战赛数据集进行的评估表明,我们的模型只需使用 9 个快照就能生成 CTP 图,无需选择 AIF,准确率高达 84.37 %。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CT Perfusion Map Synthesis from CTP Dynamic Images Using a Learned LSTM Generative Adversarial Network for Acute Ischemic Stroke Assessment.

Computed tomography perfusion (CTP) is a dynamic 4-dimensional imaging technique (3-dimensional volumes captured over approximately 1 min) in which cerebral blood flow is quantified by tracking the passage of a bolus of intravenous contrast with serial imaging of the brain. To diagnose and assess acute ischemic stroke, the standard method relies on summarizing acquired CTPs over the time axis to create maps that show different hemodynamic parameters, such as the timing of the bolus arrival and passage (Tmax and MTT), cerebral blood flow (CBF), and cerebral blood volume (CBV). However, producing accurate CTP maps requires the selection of an arterial input function (AIF), i.e. a time-concentration curve in one of the large feeding arteries of the brain, which is a highly error-prone procedure. Moreover, during approximately one minute of CT scanning, the brain is exposed to ionizing radiation that can alter tissue composition, and create free radicals that increase the risk of cancer. This paper proposes a novel end-to-end deep neural network that synthesizes CTP images to generate CTP maps using a learned LSTM Generative Adversarial Network (LSTM-GAN). Our proposed method can improve the precision and generalizability of CTP map extraction by eliminating the error-prone and expert-dependent AIF selection step. Further, our LSTM-GAN does not require the entire CTP time series and can produce CTP maps with a reduced number of time points. By reducing the scanning sequence from about 40 to 9 time points, the proposed method has the potential to minimize scanning time thereby reducing patient exposure to CT radiation. Our evaluations using the ISLES 2018 challenge dataset consisting of 63 patients showed that our model can generate CTP maps by using only 9 snapshots, without AIF selection, with an accuracy of 84.37 % .

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来源期刊
Journal of Medical Systems
Journal of Medical Systems 医学-卫生保健
CiteScore
11.60
自引率
1.90%
发文量
83
审稿时长
4.8 months
期刊介绍: Journal of Medical Systems provides a forum for the presentation and discussion of the increasingly extensive applications of new systems techniques and methods in hospital clinic and physician''s office administration; pathology radiology and pharmaceutical delivery systems; medical records storage and retrieval; and ancillary patient-support systems. The journal publishes informative articles essays and studies across the entire scale of medical systems from large hospital programs to novel small-scale medical services. Education is an integral part of this amalgamation of sciences and selected articles are published in this area. Since existing medical systems are constantly being modified to fit particular circumstances and to solve specific problems the journal includes a special section devoted to status reports on current installations.
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