基于图的肿瘤随访中 CT 研究对病变变化的自动检测和分类。

Graph-based automatic detection and classification of lesion changes in pairs of CT studies for oncology follow-up.

机构信息

School of Computer Science and Engineering, The Hebrew University of Jerusalem, Edmond J. Safra Campus, Givat Ram, 9190401, Jerusalem, Israel.

Department of Radiology, Hadassah Hebrew University Medical Center, Jerusalem, Israel.

出版信息

Int J Comput Assist Radiol Surg. 2024 Feb;19(2):241-251. doi: 10.1007/s11548-023-03000-2. Epub 2023 Aug 4.

DOI:10.1007/s11548-023-03000-2

PMID:37540449

Abstract

PURPOSE

Radiological follow-up of oncology patients requires the quantitative analysis of lesion changes in longitudinal imaging studies, which is time-consuming, requires expertise, and is subject to variability. This paper presents a comprehensive graph-based method for the automatic detection and classification of lesion changes in current and prior CT scans.

METHODS

The inputs are the current and prior CT scans and their organ and lesion segmentations. Classification of lesion changes is formalized as bipartite graph matching where lesion pairings are computed by adaptive overlap-based lesion matching. Six types of lesion changes are computed by connected components analysis. The method was evaluated on 208 pairs of lung and liver CT scans from 57 patients with 4600 lesions, 1713 lesion matchings and 2887 lesion changes. Ground-truth lesion segmentations, lesion matchings and lesion changes were created by an expert radiologist.

RESULTS

Our method yields a lesion matching rate accuracy of 99.7% (394/395) and 95.0% (1252/1318) for the lung and liver datasets. Precision and recall are > 0.99 and 0.94 and 0.95 (respectively) for the detection of lesion changes. The analysis of lesion changes helped the radiologist detect 48 missed lesions and 8 spurious lesions in the input ground-truth lesion datasets.

CONCLUSION

The classification of lesion classification provides the clinician with a readily accessible and intuitive identification and classification of the lesion changes and their patterns in support of clinical decision making. Comprehensive automatic computer-aided lesion matching and analysis of lesion changes may improve quantitative follow-up and evaluation of disease status, assessment of treatment efficacy and response to therapy.

摘要

目的

肿瘤患者的放射学随访需要对纵向影像学研究中的病变变化进行定量分析，这既耗时，又需要专业知识，并且存在变异性。本文提出了一种全面的基于图的方法，用于自动检测和分类当前和以前 CT 扫描中的病变变化。

方法

输入是当前和以前的 CT 扫描及其器官和病变分割。病变变化的分类形式为二部图匹配，其中通过基于自适应重叠的病变匹配来计算病变对。通过连通分量分析计算六种类型的病变变化。该方法在 57 名患者的 208 对肺和肝 CT 扫描中进行了评估，共有 4600 个病变、1713 个病变匹配和 2887 个病变变化。由专家放射科医生创建了病变分割、病变匹配和病变变化的真实数据集。

结果

我们的方法对肺和肝数据集的病变匹配率精度分别为 99.7%（394/395）和 95.0%（1252/1318）。对于病变变化的检测，精确率和召回率均大于 0.99，0.94 和 0.95（分别）。病变变化的分析有助于放射科医生在输入的真实数据集病变中发现 48 个遗漏病变和 8 个假阳性病变。

结论

病变分类为临床医生提供了一种易于访问和直观的识别和分类病变变化及其模式的方法，以支持临床决策。全面的自动计算机辅助病变匹配和病变变化分析可以改善疾病状态的定量随访和评估、治疗效果的评估以及对治疗的反应。

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基于图的肿瘤随访中 CT 研究对病变变化的自动检测和分类。

Graph-based automatic detection and classification of lesion changes in pairs of CT studies for oncology follow-up.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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