Radiotranscriptomics signature‐based predictive nomograms for radiotherapy response in patients with nonsmall cell lung cancer: Combination and association of CT features and serum miRNAs levels

Liyuan Fan; Qiang Cao; Xiuping Ding; Dongni Gao; Qiwei Yang; Baosheng Li

doi:10.1002/cam4.3115

Cancer Medicine (Jul 2020)

Radiotranscriptomics signature‐based predictive nomograms for radiotherapy response in patients with nonsmall cell lung cancer: Combination and association of CT features and serum miRNAs levels

Liyuan Fan,
Qiang Cao,
Xiuping Ding,
Dongni Gao,
Qiwei Yang,
Baosheng Li

Affiliations

Liyuan Fan: Cheeloo College of Medicine Shandong University Jinan Shandong China
Qiang Cao: School of Computer Science and Engineering Southeast University Nanjing Jiangsu China
Xiuping Ding: Department of Radiation Oncology Shandong First Medical University and Shandong Academy of Medical Sciences Shandong Cancer Hospital and InstituteHuaiyin Region Jinan Shandong China
Dongni Gao: Cheeloo College of Medicine Shandong University Jinan Shandong China
Qiwei Yang: Cheeloo College of Medicine Shandong University Jinan Shandong China
Baosheng Li: Department of Radiation Oncology Shandong First Medical University and Shandong Academy of Medical Sciences Shandong Cancer Hospital and InstituteHuaiyin Region Jinan Shandong China

DOI: https://doi.org/10.1002/cam4.3115
Journal volume & issue: Vol. 9, no. 14
pp. 5065 – 5074

Abstract

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Abstract Purpose We aimed to establish radiotranscriptomics signatures based on serum miRNA levels and computed tomography (CT) texture features and develop nomogram models for predicting radiotherapy response in patients with nonsmall cell lung cancer (NSCLC). Methods We first used established radioresistant NSCLC cell lines for miRNA selection. At the same time, patients (103 for training set and 71 for validation set) with NSCLC were enrolled. Their pretreatment contrast‐enhanced CT texture features were extracted and their serum miRNA levels were obtained. Then, radiotranscriptomics feature selection was implemented with the least absolute shrinkage and selection operator (LASSO), and signatures were generated by logistic or Cox regression for objective response rate (ORR), overall survival (OS), and progression‐free survival (PFS). Afterward, radiotranscriptomics signature‐based nomograms were constructed and assessed for clinical use. Results Four miRNAs and 22 reproducible contrast‐enhanced CT features were used for radiotranscriptomics feature selection and we generated ORR‐, OS‐, and PFS‐ related radiotranscriptomics signatures. In patients with NSCLC who received radiotherapy, the radiotranscriptomics signatures were independently associated with ORR, OS, and PFS in both the training (OR: 2.94, P < .001; HR: 2.90, P < .001; HR: 3.58, P = .001) and validation set (OR: 2.94, P = .026; HR: 2.14, P = .004; HR: 2.64, P = .016). We also obtained a satisfactory nomogram for ORR. The C‐index values for the ORR nomogram were 0.86 [95% confidence interval (CI), 0.75 to 0.92] in the training set and 0.81 (95% CI, 0.69 to 0.89) in the validation set. The calibration‐in‐the‐large and calibration slope performed well. Decision curve analysis indicated a satisfactory net benefit. Conclusions The radiotranscriptomics signature could be an independent biomarker for evaluating radiotherapeutic responses in patients with NSCLC. The radiotranscriptomics signature‐based nomogram could be used to predict patients’ ORR, which would represent progress in individualized medicine.

Published in Cancer Medicine

ISSN: 2045-7634 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: https://onlinelibrary.wiley.com/journal/20457634

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