基于肺部 CT 扫描的人工智能对有自主呼吸的 COVID-19 呼吸衰竭患者进行表型分析。

Phenotyping COVID-19 respiratory failure in spontaneously breathing patients with AI on lung CT-scan.

机构信息

School of Medicine and Surgery, University of Milano-Bicocca, Monza, Italy.

Department of Emergency and Intensive Care, Fondazione IRCCS San Gerardo dei Tintori Hospital, Monza, Italy.

出版信息

Crit Care. 2024 Aug 5;28(1):263. doi: 10.1186/s13054-024-05046-3.

DOI:10.1186/s13054-024-05046-3

PMID:39103945

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11301830/

Abstract

BACKGROUND

Automated analysis of lung computed tomography (CT) scans may help characterize subphenotypes of acute respiratory illness. We integrated lung CT features measured via deep learning with clinical and laboratory data in spontaneously breathing subjects to enhance the identification of COVID-19 subphenotypes.

METHODS

This is a multicenter observational cohort study in spontaneously breathing patients with COVID-19 respiratory failure exposed to early lung CT within 7 days of admission. We explored lung CT images using deep learning approaches to quantitative and qualitative analyses; latent class analysis (LCA) by using clinical, laboratory and lung CT variables; regional differences between subphenotypes following 3D spatial trajectories.

RESULTS

Complete datasets were available in 559 patients. LCA identified two subphenotypes (subphenotype 1 and 2). As compared with subphenotype 2 (n = 403), subphenotype 1 patients (n = 156) were older, had higher inflammatory biomarkers, and were more hypoxemic. Lungs in subphenotype 1 had a higher density gravitational gradient with a greater proportion of consolidated lungs as compared with subphenotype 2. In contrast, subphenotype 2 had a higher density submantellar-hilar gradient with a greater proportion of ground glass opacities as compared with subphenotype 1. Subphenotype 1 showed higher prevalence of comorbidities associated with endothelial dysfunction and higher 90-day mortality than subphenotype 2, even after adjustment for clinically meaningful variables.

CONCLUSIONS

Integrating lung-CT data in a LCA allowed us to identify two subphenotypes of COVID-19, with different clinical trajectories. These exploratory findings suggest a role of automated imaging characterization guided by machine learning in subphenotyping patients with respiratory failure.

TRIAL REGISTRATION

ClinicalTrials.gov Identifier: NCT04395482. Registration date: 19/05/2020.

摘要

背景

肺部计算机断层扫描（CT）的自动分析可能有助于描述急性呼吸道疾病的亚表型。我们将通过深度学习测量的肺部 CT 特征与临床和实验室数据整合在一起，以增强对 COVID-19 亚表型的识别。

方法

这是一项在 COVID-19 呼吸衰竭的自主呼吸患者中进行的多中心观察性队列研究，患者在入院后 7 天内接受了早期肺部 CT 检查。我们使用深度学习方法探索肺部 CT 图像进行定量和定性分析；使用临床、实验室和肺部 CT 变量进行潜在类别分析（LCA）；通过 3D 空间轨迹分析亚表型之间的区域差异。

结果

559 例患者中可获得完整数据集。LCA 确定了两种亚表型（表型 1 和 2）。与表型 2（n=403）相比，表型 1 患者（n=156）年龄较大，炎症标志物水平较高，且更缺氧。与表型 2 相比，表型 1 患者的肺部具有更高的密度重力梯度，实变肺的比例更高。相比之下，表型 2 患者具有更高的密度鞍区-肺门梯度，磨玻璃密度的比例更高。与表型 2 相比，表型 1 患者更易出现与内皮功能障碍相关的合并症，90 天死亡率更高，即使在调整了有意义的临床变量后也是如此。