The goal of this study is to develop new techniques for minimal residual disease(MRD) monitoring and to confirm the efficacy and safety of MRD-guided postoperative management for early stage non-small cell lung cancer. The main questions this study aims to answer are: * How to develop multi-omics-based high-sensitivity detection methods to accurately capture MRD and monitor postoperative recurrence in lung cancer? * Is adaptive treatment guided by ctDNA-MRD for lung cancer patients superior to traditional clinical management and effectively improves survival? * Do heterogeneous patient populations (grouped by stages, histopathological subtypes, driver mutations, and treatment histories) show differences in effects under ctDNA-MRD guided postoperative management strategies?
Approximately 30% of early-stage lung cancer patients experience recurrence after curative surgery. However, the clinical utility of routine chest CT surveillance remains limited. Emerging evidence has demonstrated that liquid biopsy-based minimal residual disease (MRD) detection may serve as a more sensitive monitoring strategy. Longitudinal ctDNA dynamics analysis further enables real-time assessment of tumor progression and early detection of molecular relapse. This study aims to develop a novel multidimensional approach for non-invasive postoperative recurrence monitoring in lung cancer and establish an MRD-guided adjuvant therapy model to optimize precision treatment and MRD-stratified follow-up protocols for lung cancer patients. This study will evaluate the sensitivity and specificity of novel monitoring methods and further compare emerging non-invasive recurrence monitoring approaches with conventional ctDNA-based techniques, driving continuous advancements in lung cancer research.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
1,000
participants will not receive postoperative treatment if (neoadjuvant therapy efficacy reaches pCR and) MRD results keep negative.
Peking University People's Hospital
Beijing, Beijing Municipality, China
RECRUITINGTwo-year recurrence-free survival rate
The difference in the proportion of patients with (suspected) relapse or metastasis between the intervention group and the control group within two years.
Time frame: Time from curative surgery to confirmation of clinical progression (recurrence or metastasis) within two years.
Overall survival
The difference in overall survival between the intervention group and the control group.
Time frame: Time from curative surgery to confirmation of death (any cause),assessed up to 60 months.
Incremental cost effectiveness ratio
The cost of lung cancer-related treatment, including the cost of drugs, follow-up treatment, drug management costs (consultation fees, anti-tumor drug allocation fees, intravenous infusion fees, nursing fees, etc.), follow-up costs, laboratory tests and imaging examination costs, and the management costs of adverse reactions (1 cycle is counted as 1 time), and the per capita standard expenses calculated according to the Checkmate816 study protocol and China's expenses were used to calculate ICER.
Time frame: 24 months after surgery
Timely diagnosis rate by the novel MRD monitoring technique
The proportion of patients with recurrence signals detected by non-invasive methods prior to clinical confirmation of recurrence/metastasis, and quantify the mean lead time.
Time frame: two years
Sensitivity of the novel MRD monitoring approach
Evaluate the sensitivity of the novel MRD-based assay against previous ctDNA-MRD-only approaches. Use receiver operating characteristic (ROC) curves and limit of detection (LoD) analyses for cross-platform comparison.
Time frame: two years
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