Postoperative circulating tumor DNA can refine risk stratification in resectable lung cancer: results from a multicenter study.
Rui FuJun HuangXiaoru TianChaoyang LiangYuanyuan XiongWen-Zhao ZhongBenyuan JiangSong DongYuhua GongWei GaoFang LiYonglei ShiZhentian LiuXuan GaoRongrong ChenWen-Zhao ZhongYi ZhangPublished in: Molecular oncology (2023)
Circulating tumor DNA (ctDNA) has potential as a promising biomarker for molecular residual disease detection in lung cancer. As the next-generation-sequencing standardized panel for ctDNA detection emerges, its clinical utility needs to be validated. We prospectively recruited 184 resectable lung cancer patients from four medical centers. Serial postoperative ctDNAs were analyzed by a standardized panel. A total of 427 postoperative plasma samples from 177 eligible patients were enrolled. ctDNA positivity after surgery was an independent predictor for disease recurrence and preceded radiological recurrence by a median of 6.6 months (range, 0.7-27.0 months). ctDNA-positive or -negative patients with tumors of any stage had similar disease-free survival (DFS). Patients who received targeted therapy had significantly improved DFS than those not receiving adjuvant therapy or receiving chemotherapy, regardless of baseline/preadjuvant ctDNA status. According to whether the ctDNA variants were detected in its matched tissue, they were classified into tissue-derived and non-tissue-derived. Patients with detectable postoperative ctDNA with tissue-derived mutations had comparable DFS with those with non-tissue-derived mutations. Collectively, we demonstrated that postoperative ctDNA has the potential to stratify prognosis and optimize tumor stage in resectable lung cancer. ctDNA variants not identified in tissue samples should be considered in molecular residual disease testing.