Segmentation of infarct lesions and prognosis prediction for acute ischemic stroke using non-contrast CT scans

IF 4.9 2区 医学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Computer methods and programs in biomedicine Pub Date : 2024-11-05 DOI:10.1016/j.cmpb.2024.108488
Xuechun Wang , Yuting Meng , Zhijian Dong , Zehong Cao , Yichu He , Tianyang Sun , Qing Zhou , Guozhong Niu , Zhongxiang Ding , Feng Shi , Dinggang Shen
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Abstract

Background and Purpose

Ischemic stroke is the most common type of stroke and the second leading cause of global mortality. Prompt and accurate diagnosis is crucial for effective treatment. Non-contrast CT (NCCT) scans are commonly employed as the first-line imaging modality to identify the infarct lesion and affected brain areas, as well as to make prognostic predictions to guide the subsequent treatment planning. However, visual evaluation of infarct lesions in NCCT scans can be subjective and inconsistent due to reliance on expert experience.

Methods

In this study, we propose an automatic method using VB-Net with dual-channel inputs to segment acute infarct lesions (AIL) on NCCT scans and extract affected ASPECTS (Alberta Stroke Program Early CT Score) regions. Secondly, we establish a prediction model to distinguish reperfused patients from non-reperfused patients after treatment, based on multi-dimensional radiological features of baseline NCCT and stroke onset time. Thirdly, we create a prediction model estimating the infarct volume after a period of time, by combining NCCT infarct volume, radiological features, and surgical decision.

Results

The median Dice coefficient of the AIL segmentation network is 0.76. Based on this, the patient triage model has an AUC of 0.837 (95 % confidence interval [CI]: 0.734–0.941), sensitivity of 0.833 (95 % CI: 0.626–0.953). The predicted follow-up infarct volume correlates strongly with the DWI ground truth, with a Pearson correlation coefficient of 0.931.

Conclusions

Our proposed pipeline offers qualitative and quantitative assessment of infarct lesions based on NCCT scans, facilitating physicians in patient triage and prognosis prediction.
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使用非对比 CT 扫描对急性缺血性脑卒中的梗死病灶进行分割并预测预后。
背景和目的:缺血性中风是最常见的中风类型,也是全球第二大死亡原因。及时准确的诊断对有效治疗至关重要。非对比 CT(NCCT)扫描通常被用作一线成像模式,以确定梗死病灶和受影响的脑区,并预测预后以指导后续治疗计划。然而,由于对专家经验的依赖,NCCT 扫描中对梗死病灶的视觉评估可能存在主观性和不一致性:在这项研究中,我们提出了一种使用 VB-Net 的自动方法,利用双通道输入分割 NCCT 扫描中的急性梗死病灶(AIL),并提取受影响的 ASPECTS(阿尔伯塔省卒中项目早期 CT 评分)区域。其次,我们根据基线 NCCT 和卒中发生时间的多维放射学特征建立了一个预测模型,用于区分治疗后再灌注患者和非再灌注患者。第三,我们结合 NCCT 梗死体积、放射学特征和手术决定,建立了一个预测模型,估计一段时间后的梗死体积:结果:AIL分割网络的中位Dice系数为0.76。在此基础上,患者分流模型的 AUC 为 0.837(95% 置信区间 [CI]:0.734-0.941),灵敏度为 0.833(95% 置信区间 [CI]:0.626-0.953)。预测的随访梗死体积与 DWI 地面真实值密切相关,皮尔逊相关系数为 0.931:我们提出的管道可根据 NCCT 扫描结果对梗死病灶进行定性和定量评估,方便医生对患者进行分流和预后预测。
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来源期刊
Computer methods and programs in biomedicine
Computer methods and programs in biomedicine 工程技术-工程:生物医学
CiteScore
12.30
自引率
6.60%
发文量
601
审稿时长
135 days
期刊介绍: To encourage the development of formal computing methods, and their application in biomedical research and medical practice, by illustration of fundamental principles in biomedical informatics research; to stimulate basic research into application software design; to report the state of research of biomedical information processing projects; to report new computer methodologies applied in biomedical areas; the eventual distribution of demonstrable software to avoid duplication of effort; to provide a forum for discussion and improvement of existing software; to optimize contact between national organizations and regional user groups by promoting an international exchange of information on formal methods, standards and software in biomedicine. Computer Methods and Programs in Biomedicine covers computing methodology and software systems derived from computing science for implementation in all aspects of biomedical research and medical practice. It is designed to serve: biochemists; biologists; geneticists; immunologists; neuroscientists; pharmacologists; toxicologists; clinicians; epidemiologists; psychiatrists; psychologists; cardiologists; chemists; (radio)physicists; computer scientists; programmers and systems analysts; biomedical, clinical, electrical and other engineers; teachers of medical informatics and users of educational software.
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