利用医疗到医疗的迁移学习方法在低剂量计算机断层扫描中检测肺结节。

IF 1.9 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Journal of Medical Imaging Pub Date : 2024-07-01 Epub Date: 2024-07-09 DOI:10.1117/1.JMI.11.4.044502
Jenita Manokaran, Richa Mittal, Eranga Ukwatta
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引用次数: 0

摘要

目的:肺癌是全球第二大常见癌症,也是导致癌症死亡的主要原因。低剂量计算机断层扫描(LDCT)是早期检测肺癌的推荐成像筛查工具。低剂量计算机断层扫描的全自动计算机辅助检测方法将大大改善现有的临床工作流程。现有的肺部检测方法大多是针对高剂量 CT(HDCT)设计的,由于域偏移和 LDCT 图像质量较差,这些方法无法直接应用于 LDCT。在这项工作中,我们介绍了一种基于迁移学习的半自动方法,用于利用 LDCT 早期检测肺结节:在这项工作中,我们开发了一种基于物体检测模型 "只看一次"(YOLO)的算法来检测肺结节。首先在 CT 上训练 YOLO 模型,然后使用医学到医学迁移学习方法在 LDCT 上重新训练模型时,将预先训练的权重用作初始权重。本研究的数据集来自一项筛查试验,包括 50 名经活检确诊的肺癌患者连续三年(T1、T2 和 T3)的 LDCT。约 60 名肺癌患者的 HDCT 图像来自公共数据集。使用由 15 个患者病例(93 张有癌结节的切片)组成的保留测试集,使用精确度、特异性、召回率和 F1 分数对所开发的模型进行了评估。评估指标按患者逐年报告,并取 3 年的平均值。为了进行比较分析,使用 COCO 数据集的预训练权重作为初始权重来训练所提出的检测模型。采用配对 t 检验和α值为 0.05 的卡方检验进行统计显著性检验:结果:通过比较使用 HDCT 预训练权重和 COCO 预训练权重开发的拟议模型,报告了结果。前一种方法与后一种方法在检测癌结节方面的精确度分别为 0.982 和 0.93,在识别无癌结节切片方面的特异性分别为 0.923 和 0.849,召回率分别为 0.87 和 0.886,F1 分数分别为 0.924 和 0.903。随着结节的发展,前者的精确度为 1,特异性为 0.92,灵敏度为 0.930。比较研究中进行的统计分析结果显示,精确度的 p 值为 0.0054,特异性的 p 值为 0.00034:本研究开发了一种半自动方法,使用 HDCT 预先训练的权重作为初始权重,并对模型进行再训练,从而检测 LDCT 中的肺结节。此外,将上述方法中的 HDCT 预训练权重替换为 COCO 预训练权重,对结果进行了比较。建议的方法可在筛查项目中发现早期肺结节,减少因 LDCT 误诊而导致的过度诊断和随访,为受影响的患者提供治疗方案,并降低死亡率。
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Pulmonary nodule detection in low dose computed tomography using a medical-to-medical transfer learning approach.

Purpose: Lung cancer is the second most common cancer and the leading cause of cancer death globally. Low dose computed tomography (LDCT) is the recommended imaging screening tool for the early detection of lung cancer. A fully automated computer-aided detection method for LDCT will greatly improve the existing clinical workflow. Most of the existing methods for lung detection are designed for high-dose CTs (HDCTs), and those methods cannot be directly applied to LDCTs due to domain shifts and inferior quality of LDCT images. In this work, we describe a semi-automated transfer learning-based approach for the early detection of lung nodules using LDCTs.

Approach: In this work, we developed an algorithm based on the object detection model, you only look once (YOLO) to detect lung nodules. The YOLO model was first trained on CTs, and the pre-trained weights were used as initial weights during the retraining of the model on LDCTs using a medical-to-medical transfer learning approach. The dataset for this study was from a screening trial consisting of LDCTs acquired from 50 biopsy-confirmed lung cancer patients obtained over 3 consecutive years (T1, T2, and T3). About 60 lung cancer patients' HDCTs were obtained from a public dataset. The developed model was evaluated using a hold-out test set comprising 15 patient cases (93 slices with cancerous nodules) using precision, specificity, recall, and F1-score. The evaluation metrics were reported patient-wise on a per-year basis and averaged for 3 years. For comparative analysis, the proposed detection model was trained using pre-trained weights from the COCO dataset as the initial weights. A paired t-test and chi-squared test with an alpha value of 0.05 were used for statistical significance testing.

Results: The results were reported by comparing the proposed model developed using HDCT pre-trained weights with COCO pre-trained weights. The former approach versus the latter approach obtained a precision of 0.982 versus 0.93 in detecting cancerous nodules, specificity of 0.923 versus 0.849 in identifying slices with no cancerous nodules, recall of 0.87 versus 0.886, and F1-score of 0.924 versus 0.903. As the nodule progressed, the former approach achieved a precision of 1, specificity of 0.92, and sensitivity of 0.930. The statistical analysis performed in the comparative study resulted in a p -value of 0.0054 for precision and a p -value of 0.00034 for specificity.

Conclusions: In this study, a semi-automated method was developed to detect lung nodules in LDCTs using HDCT pre-trained weights as the initial weights and retraining the model. Further, the results were compared by replacing HDCT pre-trained weights in the above approach with COCO pre-trained weights. The proposed method may identify early lung nodules during the screening program, reduce overdiagnosis and follow-ups due to misdiagnosis in LDCTs, start treatment options in the affected patients, and lower the mortality rate.

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来源期刊
Journal of Medical Imaging
Journal of Medical Imaging RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
4.10
自引率
4.20%
发文量
0
期刊介绍: JMI covers fundamental and translational research, as well as applications, focused on medical imaging, which continue to yield physical and biomedical advancements in the early detection, diagnostics, and therapy of disease as well as in the understanding of normal. The scope of JMI includes: Imaging physics, Tomographic reconstruction algorithms (such as those in CT and MRI), Image processing and deep learning, Computer-aided diagnosis and quantitative image analysis, Visualization and modeling, Picture archiving and communications systems (PACS), Image perception and observer performance, Technology assessment, Ultrasonic imaging, Image-guided procedures, Digital pathology, Biomedical applications of biomedical imaging. JMI allows for the peer-reviewed communication and archiving of scientific developments, translational and clinical applications, reviews, and recommendations for the field.
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