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非小细胞肺癌:通过利用公共基因表达微阵列数据识别预后成像生物标志物——方法和初步结果。

Non-small cell lung cancer: identifying prognostic imaging biomarkers by leveraging public gene expression microarray data--methods and preliminary results.

机构信息

Department of Radiology, Stanford University School of Medicine, Stanford, CA 94305, USA.

出版信息

Radiology. 2012 Aug;264(2):387-96. doi: 10.1148/radiol.12111607. Epub 2012 Jun 21.

DOI:10.1148/radiol.12111607
PMID:22723499
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3401348/
Abstract

PURPOSE

To identify prognostic imaging biomarkers in non-small cell lung cancer (NSCLC) by means of a radiogenomics strategy that integrates gene expression and medical images in patients for whom survival outcomes are not available by leveraging survival data in public gene expression data sets.

MATERIALS AND METHODS

A radiogenomics strategy for associating image features with clusters of coexpressed genes (metagenes) was defined. First, a radiogenomics correlation map is created for a pairwise association between image features and metagenes. Next, predictive models of metagenes are built in terms of image features by using sparse linear regression. Similarly, predictive models of image features are built in terms of metagenes. Finally, the prognostic significance of the predicted image features are evaluated in a public gene expression data set with survival outcomes. This radiogenomics strategy was applied to a cohort of 26 patients with NSCLC for whom gene expression and 180 image features from computed tomography (CT) and positron emission tomography (PET)/CT were available.

RESULTS

There were 243 statistically significant pairwise correlations between image features and metagenes of NSCLC. Metagenes were predicted in terms of image features with an accuracy of 59%-83%. One hundred fourteen of 180 CT image features and the PET standardized uptake value were predicted in terms of metagenes with an accuracy of 65%-86%. When the predicted image features were mapped to a public gene expression data set with survival outcomes, tumor size, edge shape, and sharpness ranked highest for prognostic significance.

CONCLUSION

This radiogenomics strategy for identifying imaging biomarkers may enable a more rapid evaluation of novel imaging modalities, thereby accelerating their translation to personalized medicine.

摘要

目的

通过一种放射组学策略,利用公共基因表达数据集的生存数据来识别非小细胞肺癌(NSCLC)的预后成像生物标志物,该策略将基因表达与患者的医学图像相结合,而这些患者的生存结果无法通过生存数据获得。

材料与方法

定义了一种将图像特征与共表达基因(元基因)簇相关联的放射组学策略。首先,创建一个用于图像特征和元基因之间两两关联的放射组学相关图。接下来,通过稀疏线性回归,根据图像特征构建元基因的预测模型。同样,也可以根据元基因构建图像特征的预测模型。最后,在具有生存结果的公共基因表达数据集中评估预测图像特征的预后意义。该放射组学策略应用于 26 例 NSCLC 患者的队列,这些患者有基因表达和来自 CT 和 PET/CT 的 180 个图像特征。

结果

NSCLC 的图像特征与元基因之间存在 243 个具有统计学意义的两两相关。元基因可以根据图像特征进行预测,准确率为 59%-83%。180 个 CT 图像特征中的 114 个和 PET 标准化摄取值可以根据元基因进行预测,准确率为 65%-86%。当将预测的图像特征映射到具有生存结果的公共基因表达数据集时,肿瘤大小、边缘形状和锐利度在预后意义方面排名最高。

结论

这种用于识别成像生物标志物的放射组学策略可能能够更快速地评估新的成像模式,从而加速其向个体化医疗的转化。

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