使用 3D 计算机断层扫描成像技术对 COVID-19 患者肺部磨玻璃影进行 AI 驱动的定量分析。

AI-driven quantification of ground glass opacities in lungs of COVID-19 patients using 3D computed tomography imaging.

机构信息

Department of Biomedical Informatics, Emory University School of Medicine, Atlanta, GA, United States of America.

Department of Radiology and Imaging Sciences, Emory University School of Medicine, Atlanta, GA, United States of America.

出版信息

PLoS One. 2022 Mar 14;17(3):e0263916. doi: 10.1371/journal.pone.0263916. eCollection 2022.

DOI:10.1371/journal.pone.0263916

PMID:35286309

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8920286/

Abstract

OBJECTIVES

Ground-glass opacity (GGO)-a hazy, gray appearing density on computed tomography (CT) of lungs-is one of the hallmark features of SARS-CoV-2 in COVID-19 patients. This AI-driven study is focused on segmentation, morphology, and distribution patterns of GGOs.

METHOD

We use an AI-driven unsupervised machine learning approach called PointNet++ to detect and quantify GGOs in CT scans of COVID-19 patients and to assess the severity of the disease. We have conducted our study on the "MosMedData", which contains CT lung scans of 1110 patients with or without COVID-19 infections. We quantify the morphologies of GGOs using Minkowski tensors and compute the abnormality score of individual regions of segmented lung and GGOs.

RESULTS

PointNet++ detects GGOs with the highest evaluation accuracy (98%), average class accuracy (95%), and intersection over union (92%) using only a fraction of 3D data. On average, the shapes of GGOs in the COVID-19 datasets deviate from sphericity by 15% and anisotropies in GGOs are dominated by dipole and hexapole components. These anisotropies may help to quantitatively delineate GGOs of COVID-19 from other lung diseases.

CONCLUSION

The PointNet++ and the Minkowski tensor based morphological approach together with abnormality analysis will provide radiologists and clinicians with a valuable set of tools when interpreting CT lung scans of COVID-19 patients. Implementation would be particularly useful in countries severely devastated by COVID-19 such as India, where the number of cases has outstripped available resources creating delays or even breakdowns in patient care. This AI-driven approach synthesizes both the unique GGO distribution pattern and severity of the disease to allow for more efficient diagnosis, triaging and conservation of limited resources.

摘要

目的

磨玻璃密度（GGO）-在 COVID-19 患者的计算机断层扫描（CT）肺部呈现出模糊、灰色的密度-是 SARS-CoV-2 的标志特征之一。本 AI 驱动研究专注于 GGO 的分割、形态和分布模式。

方法

我们使用一种称为 PointNet++的 AI 驱动无监督机器学习方法来检测和量化 COVID-19 患者 CT 扫描中的 GGO，并评估疾病的严重程度。我们在“MosMedData”上进行了研究，该数据库包含 1110 名患有或不患有 COVID-19 感染的患者的 CT 肺部扫描。我们使用 Minkowski 张量来量化 GGO 的形态，并计算分割肺和 GGO 的各个区域的异常评分。

结果

PointNet++仅使用 3D 数据的一小部分即可实现最高评估准确性（98%）、平均类别准确性（95%）和交并率（92%）来检测 GGO。平均而言，COVID-19 数据集的 GGO 形状偏离球形 15%，GGO 的各向异性主要由偶极子和六极子分量主导。这些各向异性可能有助于从其他肺部疾病定量区分 COVID-19 的 GGO。

结论

PointNet++和基于 Minkowski 张量的形态学方法以及异常分析将为解释 COVID-19 患者的 CT 肺部扫描提供有价值的工具，特别是在像印度这样 COVID-19 严重肆虐的国家，病例数量已经超过了可用资源，导致患者护理延误甚至崩溃。这种 AI 驱动的方法综合了 GGO 的独特分布模式和疾病的严重程度，从而实现更高效的诊断、分诊和有限资源的保护。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8e7f/8920286/1b3746b7fb0f/pone.0263916.g001.jpg

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使用 3D 计算机断层扫描成像技术对 COVID-19 患者肺部磨玻璃影进行 AI 驱动的定量分析。

AI-driven quantification of ground glass opacities in lungs of COVID-19 patients using 3D computed tomography imaging.

机构信息

出版信息

OBJECTIVES

METHOD

RESULTS

CONCLUSION

目的

方法

结果

结论

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