使用基于 Mask R-CNN 的 ConvNeXtv2 融合技术自动分割和预测骨肿瘤，以识别肺癌转移灶

IF 3.4 2区医学 Q2 Medicine

Journal of Bone Oncology Pub Date : 2024-10-01 DOI:10.1016/j.jbo.2024.100637

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引用次数: 0

摘要

肺癌是全球癌症相关死亡的主要原因之一，经常转移到骨骼，大大降低了患者的生活质量，并使治疗策略复杂化。本研究旨在开发一种先进的 3D Mask R-CNN 模型，该模型以 ConvNeXt-V2 为骨干增强，用于自动分割骨肿瘤和识别肺癌转移，以支持个性化治疗计划。数据收集自两家医院：中心 A（106 名患者）和中心 B（265 名患者）。B 中心的数据用于训练，而 A 中心的数据集则作为独立的外部验证集。使用的是切片厚度为 1 毫米、切片间无间隙的高分辨率 CT 扫描，感兴趣区（ROI）由两名经验丰富的放射科医生手动分割和验证。3D Mask R-CNN 模型在训练集上的 Dice 相似系数 (DSC) 为 0.856，灵敏度为 0.921，特异度为 0.961。在测试集上，其 DSC 为 0.849，灵敏度为 0.911，特异度为 0.931。在分类任务中，该模型在训练集上的 AUC 为 0.865，准确率为 0.866，灵敏度为 0.875，特异度为 0.835；在测试集上的 AUC 为 0.842，准确率为 0.836，灵敏度为 0.847，特异度为 0.819。这些结果凸显了该模型在提高骨肿瘤分割和肺癌转移检测的准确性方面的潜力，为临床肿瘤学中增强诊断工作流程和个性化治疗策略铺平了道路。

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Automated segmentation and source prediction of bone tumors using ConvNeXtv2 Fusion based Mask R-CNN to identify lung cancer metastasis

Lung cancer, which is a leading cause of cancer-related deaths worldwide, frequently metastasizes to the bones, significantly diminishing patients’ quality of life and complicating treatment strategies. This study aims to develop an advanced 3D Mask R-CNN model, enhanced with the ConvNeXt-V2 backbone, for the automatic segmentation of bone tumors and identification of lung cancer metastasis to support personalized treatment planning. Data were collected from two hospitals: Center A (106 patients) and Center B (265 patients). The data from Center B were used for training, while Center A’s dataset served as an independent external validation set. High-resolution CT scans with 1 mm slice thickness and no inter-slice gaps were utilized, and the regions of interest (ROIs) were manually segmented and validated by two experienced radiologists. The 3D Mask R-CNN model achieved a Dice Similarity Coefficient (DSC) of 0.856, a sensitivity of 0.921, and a specificity of 0.961 on the training set. On the test set, it achieved a DSC of 0.849, a sensitivity of 0.911, and a specificity of 0.931. For the classification task, the model attained an AUC of 0.865, an accuracy of 0.866, a sensitivity of 0.875, and a specificity of 0.835 on the training set, while achieving an AUC of 0.842, an accuracy of 0.836, a sensitivity of 0.847, and a specificity of 0.819 on the test set. These results highlight the model’s potential in improving the accuracy of bone tumor segmentation and lung cancer metastasis detection, paving the way for enhanced diagnostic workflows and personalized treatment strategies in clinical oncology.

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来源期刊

Journal of Bone Oncology ONCOLOGY-

CiteScore

7.20

自引率

2.90%

发文量

审稿时长

34 days

期刊介绍： The Journal of Bone Oncology is a peer-reviewed international journal aimed at presenting basic, translational and clinical high-quality research related to bone and cancer. As the first journal dedicated to cancer induced bone diseases, JBO welcomes original research articles, review articles, editorials and opinion pieces. Case reports will only be considered in exceptional circumstances and only when accompanied by a comprehensive review of the subject. The areas covered by the journal include: Bone metastases (pathophysiology, epidemiology, diagnostics, clinical features, prevention, treatment) Preclinical models of metastasis Bone microenvironment in cancer (stem cell, bone cell and cancer interactions) Bone targeted therapy (pharmacology, therapeutic targets, drug development, clinical trials, side-effects, outcome research, health economics) Cancer treatment induced bone loss (epidemiology, pathophysiology, prevention and management) Bone imaging (clinical and animal, skeletal interventional radiology) Bone biomarkers (clinical and translational applications) Radiotherapy and radio-isotopes Skeletal complications Bone pain (mechanisms and management) Orthopaedic cancer surgery Primary bone tumours Clinical guidelines Multidisciplinary care Keywords: bisphosphonate, bone, breast cancer, cancer, CTIBL, denosumab, metastasis, myeloma, osteoblast, osteoclast, osteooncology, osteo-oncology, prostate cancer, skeleton, tumour.