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一种新型模型,将基于计算机断层扫描的图像标志物与遗传标志物相结合,用于区分接受放疗的不可切除 III 期非小细胞肺癌患者的放射性肺炎:一项回顾性多中心放射组学研究。

Novel model integrating computed tomography-based image markers with genetic markers for discriminating radiation pneumonitis in patients with unresectable stage III non-small cell lung cancer receiving radiotherapy: a retrospective multi-center radiogenomics study.

机构信息

Shandong University Cancer Center, Jinan, Shandong, China.

Department of Radiation Oncology, Shandong Provincial Key Laboratory of Radiation Oncology, Shandong Cancer Hospital and Institute, Shandong First Medical University, Shandong Academy of Medical Sciences, Jinan, Shandong, China.

出版信息

BMC Cancer. 2024 Jan 15;24(1):78. doi: 10.1186/s12885-023-11809-y.

DOI:10.1186/s12885-023-11809-y
PMID:38225543
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10789008/
Abstract

BACKGROUND

Chemoradiotherapy is a critical treatment for patients with locally advanced and unresectable non-small cell lung cancer (NSCLC), and it is essential to identify high-risk patients as early as possible owing to the high incidence of radiation pneumonitis (RP). Increasing attention is being paid to the effects of endogenous factors for RP. This study aimed to investigate the value of computed tomography (CT)-based radiomics combined with genomics in analyzing the risk of grade ≥ 2 RP in unresectable stage III NSCLC.

METHODS

In this retrospective multi-center observational study, 100 patients with unresectable stage III NSCLC who were treated with chemoradiotherapy were analyzed. Radiomics features of the entire lung were extracted from pre-radiotherapy CT images. The least absolute shrinkage and selection operator algorithm was used for optimal feature selection to calculate the Rad-score for predicting grade ≥ 2 RP. Genomic DNA was extracted from formalin-fixed paraffin-embedded pretreatment biopsy tissues. Univariate and multivariate logistic regression analyses were performed to identify predictors of RP for model development. The area under the receiver operating characteristic curve was used to evaluate the predictive capacity of the model. Statistical comparisons of the area under the curve values between different models were performed using the DeLong test. Calibration and decision curves were used to demonstrate discriminatory and clinical benefit ratios, respectively.

RESULTS

The Rad-score was constructed from nine radiomic features to predict grade ≥ 2 RP. Multivariate analysis demonstrated that histology, Rad-score, and XRCC1 (rs25487) allele mutation were independent high-risk factors correlated with RP. The area under the curve of the integrated model combining clinical factors, radiomics, and genomics was significantly higher than that of any single model (0.827 versus 0.594, 0.738, or 0.641). Calibration and decision curve analyses confirmed the satisfactory clinical feasibility and utility of the nomogram.

CONCLUSION

Histology, Rad-score, and XRCC1 (rs25487) allele mutation could predict grade ≥ 2 RP in patients with locally advanced unresectable NSCLC after chemoradiotherapy, and the integrated model combining clinical factors, radiomics, and genomics demonstrated the best predictive efficacy.

摘要

背景

放化疗是局部晚期不可切除非小细胞肺癌(NSCLC)患者的重要治疗方法,由于放射性肺炎(RP)的发生率较高,尽早识别高危患者至关重要。人们越来越关注 RP 的内源性因素的影响。本研究旨在探讨基于计算机断层扫描(CT)的放射组学结合基因组学分析不可切除 III 期 NSCLC 中 2 级及以上 RP 风险的价值。

方法

在这项回顾性多中心观察性研究中,分析了 100 例接受放化疗的不可切除 III 期 NSCLC 患者。从放疗前 CT 图像中提取全肺的放射组学特征。采用最小绝对收缩和选择算子算法进行最优特征选择,计算预测 2 级及以上 RP 的 Rad-score。从福尔马林固定石蜡包埋预处理活检组织中提取基因组 DNA。采用单因素和多因素逻辑回归分析鉴定 RP 的预测因子,用于模型开发。采用受试者工作特征曲线下面积评估模型的预测能力。采用 DeLong 检验比较不同模型曲线下面积值的统计学差异。采用校准和决策曲线分别评估区分度和临床获益比。

结果

构建了由 9 个放射组学特征组成的 Rad-score 来预测 2 级及以上 RP。多因素分析表明,组织学、Rad-score 和 XRCC1(rs25487)等位基因突变是与 RP 相关的独立高危因素。整合临床因素、放射组学和基因组学的综合模型的曲线下面积明显高于任何单一模型(0.827 比 0.594、0.738 或 0.641)。校准和决策曲线分析证实了列线图具有良好的临床可行性和实用性。

结论

组织学、Rad-score 和 XRCC1(rs25487)等位基因突变可预测局部晚期不可切除 NSCLC 患者放化疗后 2 级及以上 RP,整合临床因素、放射组学和基因组学的综合模型具有最佳预测效果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/a3fe9dda27b7/12885_2023_11809_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/c98fdfea7635/12885_2023_11809_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/e24e11ade97d/12885_2023_11809_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/a3fe9dda27b7/12885_2023_11809_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/c98fdfea7635/12885_2023_11809_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/38cb15a49369/12885_2023_11809_Fig2_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/e39a88fd5345/12885_2023_11809_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/e24e11ade97d/12885_2023_11809_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee72/10789008/a3fe9dda27b7/12885_2023_11809_Fig7_HTML.jpg

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