View clinical trials related to Lung Neoplasms.
Filter by:The primary objective in Phase I is to evaluate the safety and tolerability of ESG401 as a single agent administered in 21-day treatment cycles in previously treated participants with advanced epithelial cancer. In Phase II, the primary objective is to evaluate the safety and efficacy of ESG401 administered in 21-day treatment cycles at a dose selected in Phase I. Tumor types in the study will include: cervical, colorectal, endometrial, ovarian, esophageal, gastric adenocarcinoma, glioblastoma multiforme, head and neck cancers- squamous cell, hepatocellular, prostate, non-small-cell lung cancer, pancreatic, renal cell, small-cell lung cancer, non-triple negative breast cancer (non-TNBC), triple-negative breast cancer (TNBC) and metastatic urothelial cancer (mUC).
Based on indicators such as 24 week progression free survival (24 weeks PFS) in small cell lung cancer (SCLC) patients without disease progression after first-line platinum containing chemotherapy, objective response rate (ORR) in SCLC patients with recurrence or progression after first-line platinum containing chemotherapy, and orr in SCLC patients with recurrence or progression after second-line and above treatment,Evaluation of the effectiveness of al8326 monotherapy in small cell lung cancer.
This is a single arm, multi-center clinical trial. Target population is patients with Advanced or Metastatic Pulmonary Sarcomatoid Carcinoma,aiming to evaluate the efficacy and safety of the combination therapy of Camrelizumab and famitinib . Camrelizumab is a humanized anti-PD1 IgG4 monoclonal antibody, and famitinib is an orally bioavailable receptor tyrosine kinase (RTK) inhibitor.
The excessive accumulation of fluid between the membranes surrounding the lung, a clinical condition commonly referred to as "pleural effusion", is caused by one of three factors: increased production of pleural fluid, decreased ability to reabsorb pleural fluid or a mixture both. The basis of pleural effusion accumulation may originate from multiple pathologies: from benign and extrapulmonary conditions to intrinsic pleural pathology (inflammatory or neoplastic primary or metastatic) in which the accumulation of fluid in the pleural space is mainly due to changes in the structure of the pleural membrane (loss of integrity and / or infiltration by neoplastic cells). An example of extrapulmonary conditions is the pleural effusion observed in patients with congestive heart failure in which there is increase in hydrostatic capillary pressure, due to failure of the cardio circulatory pump. The distinction between benign and malignant causes is currently a diagnostic challenge that usually requires the collection of material (cells immersed in the pleural fluid or even a histological sample). The first step of this investigation is currently the cytological evaluation of the pleural fluid, that is, the observation of cells, of an initial sample of the pleural fluid. This procedure is associated with an average sensitivity of 62% while a second sample through thoracentesis improves the sensitivity of the diagnosis by 10%. In certain cases, however, it is not possible to diagnose by analyzing the pleural fluid and, as a rule, a more invasive diagnostic method is recommended, such as pleural biopsy (collected by puncture with a "blind" needle, echo guided or computed tomography guided or obtained by means of direct visualization of the pleural cavity through pleuroscopy). The diagnostic yield of this approach can reach up to 97% (in the case of pleural biopsy obtained by medical thoracoscopy). However, it implies greater morbidity and greater consumption of resources (material and human). The development of a more sensitive and specific and at the same time less invasive diagnostic method for pleural fluid may contribute to a more effective screening of patients, limiting the use of more invasive methods to only patients with a higher risk of malignant pathology.
Therapeutic 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.
This is a phase II, non-comparative, randomized study assessing combination of Tedopi with docetaxel or with nivolumab in NSCLC patients failing after first- line chemoimmunotherapy. In this non-comparative study, the standard arm (arm C) will serve as a calibration arm. All NSCLC patients candidate for second- line therapy are considered eligible for the study if they are HLA-A2+ and if they progressed after at least 4 cycles of previous first-line chemo-immunotherapy. After evaluation of all inclusion and exclusion criteria and after informed consent signature, all eligible patients will be treated with Tedopi plus docetaxel (arm A) or Tedopi plus nivolumab (arm B) or docetaxel as single agent (arm C- standard arm). Docetaxel therapy will be given until disease progression, unacceptable toxicity or patient refusal, and up to maximum 6 cycles. Tedopi or nivolumab will be given until disease progression, unacceptable toxicity or patient refusal.
The purpose of this study is to evaluate the tolerability and toxicity of different dose of anlotinib combination with concurrent chemoradiotherapy in the treatment of limited-stage SCLC patients.
This trial will examine if the monitoring of daily step counts during a course of concurrent chemoradiotherapy for locally advanced non-small cell lung cancer will enable clinicians to deliver improved supportive care and reduce the rate of adverse events during the course of radiation treatment.
SABRE STUDY will explore effectiveness and safety of the combination therapy of camrelizumab,apatinib and SBRT/LDRT in patients with metastatic non-small Cell Lung Cancer (NSCLC) patient previously treated With PD-1/L1 Inhibitor and Chemotherapy.
The primary aim of this single arm, phase II study is to determine the efficacy of the combination therapy Pembrolizumab/Lenvatinib regarding the rate of major pathological response (MPR-Rate). The investigators expect to improve the MPR-Rate of 20% in Anti-PD1/-PD-L1 monotherapy (observed in recent trials) to a MPR-Rate of 40% with the combination therapy Pembrolizumab/Lenvatinib.