Spatial resolution enhancement using deep learning improves chest disease diagnosis based on thick slice CT

IF 12.4 1区医学 Q1 HEALTH CARE SCIENCES & SERVICES NPJ Digital Medicine Pub Date : 2024-11-23 DOI:10.1038/s41746-024-01338-8

Pengxin Yu, Haoyue Zhang, Dawei Wang, Rongguo Zhang, Mei Deng, Haoyu Yang, Lijun Wu, Xiaoxu Liu, Andrea S. Oh, Fereidoun G. Abtin, Ashley E. Prosper, Kathleen Ruchalski, Nana Wang, Huairong Zhang, Ye Li, Xinna Lv, Min Liu, Shaohong Zhao, Dasheng Li, John M. Hoffman, Denise R. Aberle, Chaoyang Liang, Shouliang Qi, Corey Arnold

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Abstract

CT is crucial for diagnosing chest diseases, with image quality affected by spatial resolution. Thick-slice CT remains prevalent in practice due to cost considerations, yet its coarse spatial resolution may hinder accurate diagnoses. Our multicenter study develops a deep learning synthetic model with Convolutional-Transformer hybrid encoder-decoder architecture for generating thin-slice CT from thick-slice CT on a single center (1576 participants) and access the synthetic CT on three cross-regional centers (1228 participants). The qualitative image quality of synthetic and real thin-slice CT is comparable (p = 0.16). Four radiologists’ accuracy in diagnosing community-acquired pneumonia using synthetic thin-slice CT surpasses thick-slice CT (p < 0.05), and matches real thin-slice CT (p > 0.99). For lung nodule detection, sensitivity with thin-slice CT outperforms thick-slice CT (p < 0.001) and comparable to real thin-slice CT (p > 0.05). These findings indicate the potential of our model to generate high-quality synthetic thin-slice CT as a practical alternative when real thin-slice CT is preferred but unavailable.

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利用深度学习提高空间分辨率，改进基于厚切片 CT 的胸部疾病诊断

CT 是诊断胸部疾病的关键，其图像质量受空间分辨率的影响。出于成本考虑，厚片 CT 在实践中仍然很普遍，但其粗糙的空间分辨率可能会妨碍准确诊断。我们的多中心研究利用卷积变换器混合编码器-解码器架构开发了一种深度学习合成模型，用于在单个中心（1576 名参与者）从厚片 CT 生成薄片 CT，并在三个跨区域中心（1228 名参与者）访问合成 CT。合成 CT 和真实薄层 CT 的定性图像质量相当（p = 0.16）。四位放射科医生使用合成薄层 CT 诊断社区获得性肺炎的准确性超过了厚层 CT（p < 0.05），与真实薄层 CT 相当（p > 0.99）。在肺结节检测方面，薄层 CT 的灵敏度优于厚层 CT（p < 0.001），与真实薄层 CT 相当（p > 0.05）。这些发现表明，我们的模型有潜力生成高质量的合成薄层 CT，在需要但无法获得真实薄层 CT 时作为一种实用的替代方法。

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来源期刊

NPJ Digital Medicine Multiple-

CiteScore

25.10

自引率

3.30%

发文量

170

审稿时长

15 weeks

期刊介绍： npj Digital Medicine is an online open-access journal that focuses on publishing peer-reviewed research in the field of digital medicine. The journal covers various aspects of digital medicine, including the application and implementation of digital and mobile technologies in clinical settings, virtual healthcare, and the use of artificial intelligence and informatics. The primary goal of the journal is to support innovation and the advancement of healthcare through the integration of new digital and mobile technologies. When determining if a manuscript is suitable for publication, the journal considers four important criteria: novelty, clinical relevance, scientific rigor, and digital innovation.