Impact of Inactivated Trivalent Influenza Vaccine on NSCLC Patients Receiving PD-1 / PD-L1 Inhibitors...
Non Small Cell Lung CancerInfluenza VaccineThis project is to assess the immunogenicity, safety and overall survival impact of intramuscular injection of trivalent influenza vaccine in non-small cell lung cancer (NSCLC) patients with PD-1/PD-L1 inhibitor treatment.
Real-world Treatment Patterns and Clinical Outcomes in EGFR-mutant Unresectable Locally Advanced...
Non Small Cell Lung CancerStage III Non-small-cell Lung Cancer1 moreThe investigators will obtain a cohort of patients from multiple large cancer centers in China and try to unravel the efficacy of "radiotherapy combined with EGFR-TKI", which may provide some evidences for the treatment of stage III-inoperable NSCLC.
Combination of Osimertinib and Aspirin to Treat Osimertinib Resistance Non-small Cell Lung Cancer...
Non-Small Cell Lung Cancer Stage IIIBNon-small Cell Lung Cancer Stage IV1 moreThe third generation epidermal growth gactor receptor-tyrosine Kinase Inhibitor(EGFR-TKI) osimertinib has obvious curative effect for EGFR sensitive mutation and T790M mutation(PMID 27959700), but acquired drug resistance will occur. Previous studies show that apoptosis escape can lead to EGFR-TKI resistance.Osimertinib resistant cells show abnormal activation of PI3K/AKT/BIM activation(PMID 28765329). The classical drug aspirin can effectively decrease AKT phosphorylation and activate of BIM(PMID 28881293).So Investigators speculate that aspirin may decrease the PI3K/AKT/BIM signaling pathways, then promote osimertinib resistant cells apoptosis. The current study aims to evaluate the combination of aspirin and osimertinib in patients with EGFR/T790M mutations.
Tumor Growth Rate (TGR) Predicts Clinical Outcomes for Advanced Non-small Cell Lung Cancer Undergoing...
Non-Small Cell Lung CancerWe hypothesized that TGR could serve as an early predictor of outcomes for aNSCLC patients undergoing immune checkpoint inhibitors (ICIs). A retrospective analysis was conducted to investigate the association of TGR with response and long-term survival of aNSCLC patients undergoing ICI therapy.
External Control, Observational, Retrospective Study Comparing Pralsetinib to Best Available Therapy...
RET-fusion Non Small Cell Lung CancerLung Neoplasm19 moreThis is an external control, observational, retrospective study designed to compare clinical outcomes for pralsetinib compared with best available therapy for patients with RET-fusion positive advanced NSCLC.
Genotyping of Ebus-tbna Supernant Cell-free Dna in Nsclc
Lung CancerThe wide uptake of "liquid biopsy" diagnostics in the care of advanced cancer patients highlights the desire for improved access to tumor allowing accurate tumor genotyping (1). Genotyping of plasma cfDNA is now routine for detection of EGFR driver mutations at diagnosis of NSCLC, or for detection of the EGFR T790M mutation after TKI resistance, and is an emerging approach for the detection of other drivers (HER2 or BRAF mutations, ALK or ROS1 fusions…) (2) or the estimation of tumor mutation burden (TMB) (3). However, the most sensitive plasma genotyping platforms still have a sensitivity of only 70%-80%, such that a negative result requires tissue biopsy confirmation.
Evaluation System for the Efficacy of Immunologic Checkpoint Inhibitors in NSCLC
Non Small Cell Lung CancerInhibitors of programmed cell death protein 1 (PD-1) and programmed cell death ligand 1 (PD-L1) are effective therapies for metastatic NSCLC lacking sensitizing EGFR or ALK mutations. First-line combination regimens that include a PD-1 or PD-L1 inhibitor may maximize the chance of response and lead to prolonged survival. PD-L1 expression is the only validated predictive biomarker for selecting pembrolizumab treatment. However, it is far from being the ideal biomarker and its role in predicting efficacy from ICPIs remains undefined due to conflicting results from randomized clinical trials. The selection of patients most likely to benefit from immunotherapy is crucial in order to avoid exposure to potentially toxic and ineffective drugs as well as to prevent inappropriate allocation of health resources. Further studies are clearly needed to better understand the mechanism of action of immunotherapy in vivo thus allowing the identification of other predictive biomarkers. Therefore, our research team intends to explore advanced non-small cell lung cancer treated with immune checkpoint inhibitors, by combining the evaluation criteria of solid tumor efficacy evaluation criteria (RECIST1.1), clinical pathological characteristics of patients, and dynamic monitoring of peripheral blood molecular biological markers, finding the correlation with the efficacy of immunotherapy, establish a detection mode for selecting patients with clinical benefits.
Evaluation of a Novel Microfluidic Device to Purify Metastatic Lung Cancer Patients CTC (Circulating...
Non Small Cell Lung CancerCurrents strategies for cancer diagnosis consist of the extraction of a solid tissue from the affected area. This sample enables the study of specific biomarkers and the genetic nature of the tumor. However, the tissue extraction is risky and painful for the patient and in some cases is unavailable in inaccessible tumors. In addition, cancer is a dynamic disease and during the course of disease, cancers generally become more heterogeneous. As a result of this heterogeneity, the bulk tumour might include a diverse collection of cells harbouring distinct molecular signatures with differential levels of sensitivity to treatment. This heterogeneity might result in a non-uniform distribution of genetically distinct tumour-cell subpopulations across and within disease sites (spatial heterogeneity) or temporal variations in the molecular makeup of cancer cells (temporal heterogeneity). To overcome these drawbacks, new alternatives are rising up, such as liquid biopsy. A liquid biopsy is the analysis of biomarkers in a non-solid biological tissue, mainly blood, which has remarkable advantages over the traditional method; it has no risk, it is non-invasive and painless, it does not require surgery and reduces cost and diagnosis time. Of the various circulating biomarkers, circulating tumor cells (CTCs) have particularly opened new windows. Circulating tumor cells (CTCs) are released into the bloodstream from primary cancer, metastasis, and even from a disseminated tumor cell reservoir. CTCs may ideally replace tissue biopsies in the prediction and monitoring of therapeutic responses and tumor recurrence. CTCs can be used to guide therapeutic cancer management and serve as drug targets. There are a wide range of instruments and methods for capturing, enriching, and enumerating CTCs. However, none of them is considered optimal. To improve the purity of CTCs, the study consortium has developed a cutting-edge microfluidic device (LUTON) to reduce leukocytes contamination while preserving CTCs viability. The added-value of the study innovation has been validated on clinical cell lines. The aim of this study is now to determine the performance of the device using patients' blood samples. For this purpose, CTCs from non-small cell lung metastatic cancer patients will be isolated using ClearCellFX1 before injection into the LUTON workflow. Collected cells will then be either growth in vitro or in ovo and the added value of this extra step of purification determined.
Identify Prognostic Biomarkers of Lung Cancer
Lung CancerLung Adenocarcinoma2 moreMulti-omics and Clinical Data Analysis is potential to predict the prognosis of lung cancer patients.
Retrospective Observational Study on Prediction of Response to PD-1 Immunotherapy in Patients With...
Advanced Non Small Cell Lung CancerTherapeutic antibodies that block the programmed death-ligand 1 (PD-L1)/programmed death-1 (PD-1) pathway have revolutionized immuno-oncology by inducing robust and durable responses in patients with various cancer including advanced non-small-cell lung cancer (NSCLC). However, these responses only occur in a subset of patients, even in case of PD-L1 overexpression. Elucidating the determinants of response and resistance but also of severe immune-mediated adverse events is key to improving outcomes and developing new treatment strategies. Biomarkers that predict immune checkpoint inhibitors efficacy and toxicity are urgently needed and could emerge from characterization of tumor microenvironment. The purpose of PREDICTION project is to elucidate response and toxicity predictive immunophenotypic signatures using a new in situ multiplexed strategy with imaging mass cytometry Hyperion. Patients treated with anti-PD-1 pembrolizumab will be selected on their response and toxicity profiles. Then, tumor samples will be analysed with Hyperion technology, allowing delineation of cell subpopulations and cell-cell interactions, highlighting tumor heterogeneity and to determine correlations between response and toxicity features. The number of co-analysable markers enables global vision on the same tissue section. A better understanding of the tumor microenvironment complex system will lead to discover new predictive biomarkers potentially transferable to current practice.