Integrated Multiomics Signatures to Optimize the Accurate Diagnosis of Lung Cancer

Overview

Journal Nat Commun

Specialty Biology

Date 2025 Jan 2

PMID 39747216

Authors

Mengmeng Zhao

Gang Xue

Bingxi He

Jiajun Deng

Tingting Wang

Yifan Zhong

Shenghui Li

Yang Wang

Yiming He

Tao Chen

Jun Zhang

Ziyue Yan

Xinlei Hu

Liuning Guo

Wendong Qu

Yongxiang Song

Minglei Yang

Guofang Zhao

Bentong Yu

Minjie Ma

Lunxu Liu

Xiwen Sun

Yunlang She

Dan Xie

Deping Zhao

Chang Chen

Affiliations

Soon will be listed here.

Abstract

Diagnosing lung cancer from indeterminate pulmonary nodules (IPLs) remains challenging. In this multi-institutional study involving 2032 participants with IPLs, we integrate the clinical, radiomic with circulating cell-free DNA fragmentomic features in 5-methylcytosine (5mC)-enriched regions to establish a multiomics model (clinic-RadmC) for predicting the malignancy risk of IPLs. The clinic-RadmC yields an area-under-the-curve (AUC) of 0.923 on the external test set, outperforming the single-omics models, and models that only combine clinical features with radiomic, or fragmentomic features in 5mC-enriched regions (p < 0.050 for all). The superiority of the clinic-RadmC maintains well even after adjusting for clinic-radiological variables. Furthermore, the clinic-RadmC-guided strategy could reduce the unnecessary invasive procedures for benign IPLs by 10.9% ~ 35%, and avoid the delayed treatment for lung cancer by 3.1% ~ 38.8%. In summary, our study indicates that the clinic-RadmC provides a more effective and noninvasive tool for optimizing lung cancer diagnoses, thus facilitating the precision interventions.

Citing Articles

5-Hydroxymethylcytosine modifications in circulating cell-free DNA: frontiers of cancer detection, monitoring, and prognostic evaluation.

Song D, Zhang Z, Zheng J, Zhang W, Cai J Biomark Res. 2025; 13(1):39.

PMID: 40055844 PMC: 11887266. DOI: 10.1186/s40364-025-00751-9.

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