View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The aim of the study is to evaluate the paclitaxel-bevacizumab combination retrospectively and multicenter in current practice, with subgroup analyses of the following patients: patients who have previously received immunotherapy, patients with an EGFR or ALK oncogenic addiction pathway, patients who have previously received taxanes or anti-angiogenic agents.
This is an observational, non-interventional, single-country, multi center, retrospective cohort study, based on real world data collection, of patients with locally advanced or metastatic Epidermal Growth Factor Receptor (EGFR) mutation-positive Non-Small Cell Lung Cancer (NSCLC) who had been treated with Afatinib at any line.
This study will assess the safety and efficacy of avutometinib (VS-6766) monotherapy or VS-6766 in combination with defactinib in subjects with recurrent Non-small cell lung cancer.
This is a phase I/Ib, first-in-human (FIH), open-label, dose escalation and dose expansion study to evaluate the safety and tolerability, biological and clinical activities of GEN-001 in patients with locally advanced or metastatic solid tumors who have progressed on at least two lines of approved therapy for their histological subtypes which includes an anti-PD-1 or anti-PD-L1 based therapy (as mono or combination), when administered as combined with avelumab.
This is a multicenter, open-label, dose-escalation/dose-expansion Phase 1 clinical study to investigate the safety, tolerability, PK profile, pharmacodynamics, and preliminary clinical efficacy of INCB106385 when given as monotherapy or in combination with INCMGA00012 in participants with selected CD8 T-cell-positive advanced solid tumors including SCCHN, NSCLC, ovarian cancer, CRPC, TNBC, bladder cancer, and specified GI malignancies (defined as CRC, gastric/GEJ cancer, HCC, PDAC, or SCAC)
In the management of non-small cell lung cancer of the adenocarcinoma type, different therapeutic strategies can be proposed. These strategies are defined according to the results of a biological analysis of blood and/or tissue samples from the lung tumor. Mutations in the tumor DNA are sought. Thus, patients with sensitizing mutations can benefit from a treatment with a 3rd generation tyroine kinase inhibitor (TKI) whose efficacy has been widely demonstrated. Patients without tumor mutations will not benefit. However, resistance to TKIs appears after a certain time, often linked to the appearance of new mutations in the tumor. For this reason, blood biologic analyses are regularly performed to search for the emergence of resistance mutations and to propose a therapeutic alternative as soon as possible. These analyses are performed routinely in the laboratory. In the course of these analyses, the investigators have identified conventional mutations but also new mutations not previously described in the literature. Our objective is to list all the molecular abnormalities revealed during blood biological analyses, to determine their frequency and to study whether certain abnormalities can be linked to resistance to TKI.
This trial is testing two novel combinations (temozolomide plus osimertinib OR temozolomide plus lorlatinib) which have not been evaluated in clinical trials. Thus, the exact benefits of these novel combinations are unclear. However, based on the mechanism of action of temozolomide and CNS(Central Nervous System) penetration/activity in other tumor types, it is hypothesized that adding temozolomide to osimertinib or temozolomide to lorlatinib may provide improvement in CNS disease control in patients with CNS progression on either of these latter two TKIs (Tyrosine kinase inhibitors).
This is a multi-center observational study of atezolizumab combination therapy in patients with unresectable, advanced and recurrent non-small cell lung cancer(NSCLC) or extensive disease small cell lung cancer(ED-SCLC). 800 patients in NSCLC cohort and 400 patients in ED-SCLC cohort will be enrolled in this trial to assess the efficacy and safety of this combination.
Non-small cell lung cancer (NSCLC) is the most common histological form, accounting for 85% of all bronchopulmonary cancers (PBC). The advent of Immunity Checkpoint Inhibitors (ICIs) targeting Programmed cell Death-1 (PD-1) is changing current treatment algorithms. Preliminary results from work carried out in the Medical Oncology Department of the University Hospital of Tours suggest that immunotherapy targeting ICI, when administered beforehand, increases the effect of catch-up chemotherapy. In NSCLC, the progression-free survival (PFS) of 3rd line chemotherapy after anti-PD-1 immunotherapy was better than the PFS of 3rd line chemotherapy performed at the end of conventional chemotherapy. Moreover, the combination of chemotherapy and immunotherapy gives paradoxically better results than immunotherapy alone. Immunotherapy restores the anti-tumor T immunity inhibited by the cancer cell. While the mode of action of ICIs is well known, the mechanisms of resistance to them are poorly understood. Several pathways are evoked, in particular the modulation of cellular interactions within the tumour microenvironment (TME), the molecular expression profile of cancer cells, or the immunological status of the patient. Regulatory T lymphocytes (Treg) participate in the maintenance of immune system homeostasis by ensuring tolerance to self antigens. Within TME, Treg inhibit anti-tumor T cell activity and potentiate tumor proliferation. The latter, by specifically recognizing tumor antigens, block the activity of effector T lymphocytes directed against tumor cells. Thus, an increase in circulating Treg concentrations and in TME is a poor prognostic factor, especially in NSCLC. Gemcitabine chemotherapy is commonly used in the management of NSCLC. Recent data show that gemcitabine decreases Treg activity and regulates levels of anti-inflammatory TME cytokines such as IL10, TGF-β and interferon-Ɣ. The hypothesis of this study is that the decrease in Treg blood concentration by catch-up chemotherapy restores sensitivity to immunotherapy.
Evaluation of GLR2007 for Advanced Solid Tumors