View clinical trials related to Lung Neoplasms.
Filter by:The objective is to study the phenotypic, functional and metabolomic characteristics of neutrophils circulating subpopulations in lung cancer patients, and to compare them to a control group of healthy volunteers. A blood sample will be taken before the first treatment session for the lung cancer patient and a second blood sample will be taken during the first evaluation visit. The investigators hypothesize that there may be different circulating neutrophil subpopulations in patients with metastatic non-small cell lung cancer (NSCLC) involved in tumor progression and resistance to immunotherapy.
The goal of this single-center prospective randomized controlled trial is to test and compare the safety and effectiveness of autologous blood transfusion in spinal surgery for lung cancer spinal metastases. The main questions it aims to answer are: - Does autologous blood transfusion increase the incidence of new metastases? - Does autologous blood transfusion affect postoperative hemoglobin levels and the number of circulating tumor cells in the blood? - Can autologous blood transfusion reduce the rate of allogeneic transfusion during and after surgery for spinal metastases?
The study is designed to understand the safety, tolerability, pharmacokinetics, immunogenicity, and preliminary antitumor activity of MGC026 in participants with relapsed or refractory, unresectable, locally advanced or metastatic solid tumors The study has a dose escalation portion and a cohort expansion portion of the study. Participants will receive MGC026 by intravenous (IV) infusion. The dose of MGC026 will be assigned at the time of enrollment. Participants may receive up to 35 treatments if there are no severe side effects and as long as the cancer does not get worse. Participants will be monitored for side effects, and progression of cancer, have blood samples collected for routing laboratory work, and blood samples collected for research purposes.
Interventional (low intervention level), non-pharmacological, prospective, feasibility pilot study of the preparation of organoids starting from lung tumor tissue collected during biopsies performed via diagnostic bronchoscopy according to standard clinical practice.
The goal of this interventional phase III clinical trial is to evaluate objective intracranial response rate (iORR) after a treatment with total cranial radiation therapy plus concomitant transdermal nitroglycerin (NTG) addition or total cranial radiation therapy only in patients with stage IV non-small cell lung cancer with brain metastases and EGFR mutation. The main questions it aims to answer are: Determine progression-free survival (PFS) to CNS and overall survival (OS). Evaluate and compare the quality of life (QoL) of patients during and after treatment. Evaluate the cognitive function of patients before, during and after treatment. Evaluate treatment-associated toxicity to grade adverse treatment events Evaluation of HIF1α, VEGF and ROS1 in peripheral blood before and after nitroglycerin treatment. All participants will have laboratory tests at the beginning and end of radiation therapy. Cranial MRI will be performed prior to treatment and 12 weeks after the end of treatment, then every 16 weeks until intracranial progression. Patients in the interventional group will be given 36 mg patches of transdermal nitroglycerin for 24 hours with a 12-hour rest interval during treatment with radiation therapy. The control group will only receive total cranial radiation therapy at the same doses and with the same schedule.
To learn if KSQ-001EX is safe to give to participants with advanced forms of solid tumors.
Stereotactic body radiotherapy (SBRT) has become a standard of care for medically inoperable or high-risk operable early-stage non-small cell lung cancer (NSCLC) patients. It is also increasingly used to treat lung metastases in patients with oligometastatic disease. While SBRT is a powerful tool for the treatment of lung tumors, access to specialized treatment can be limited for patients who live far away from a treatment center. Geographic accessibility can be limiting even for patients receiving one fraction lung SBRT, as the typical consult, CT simulation, and one-fraction treatment workflow is typically at least two to three weeks from start to finish, with a minimum of three in-person appointments. In this study, a high-quality cone beam CT (CBCT) on-board imaging platform (HyperSight; Varian Medical Systems, Palo Alto, CA) will be coupled with advanced motion management and treatment techniques as well as Ethos (Varian Medical Systems, Palo Alto, CA) daily online adaptation to simulation-free workflow for one fraction SBRT. This has the potential to reduce the time it takes a patient to be cured of their lung tumor from two to three weeks to two to three hours. In this novel workflow, patients will undergo telephone/online consent followed by a diagnostic scan-based pre-plan for one fraction SBRT. On the morning of treatment, a brief follow-up appointment will be followed by treatment on the HyperSight/Ethos platform. Patients will be treated using a simulation-free workflow. A HyperSight Thorax Slow protocol CBCT will be acquired for study purposes, and then the patient will be treated with online adaptive CBCT-guided radiotherapy on the Ethos/HyperSight platform. Treatment delivery will take place following contouring and treatment planning. Patients will undergo standard of care simulation imaging in parallel for comparison. The purpose of this study is to evaluate the feasibility of a ONE fraction Simulation-free Treatment with CT-guided stereotactic adaptive radiotherapy for Oligometastatic and Primary lung tumors (ONE STOP) workflow for patients with small, peripheral primary or oligometastatic lung tumors.
Non-Squamous Non-Small Cell Lung Cancer (NSCLC) remains a leading cause of cancer mortality worldwide, with poor survival prospects for metastatic disease. The purpose of this study is to evaluate the optimized dose, adverse events, and efficacy of livmoniplimab in combination with budigalimab plus chemotherapy versus pembrolizumab plus chemotherapy in participants with untreated metastatic non-squamous non-small cell lung cancer. Livmoniplimab is an investigational drug being developed for the treatment of NSCLC. There are 2 stages to this study. In Stage 1, there are 4 treatment arms. Participants will either receive livmoniplimab (at different doses) in combination with budigalimab (another investigational drug) + chemotherapy, budigalimab +chemotherapy, or pembrolizumab +chemotherapy. In Stage 2, there are 2 treatments arms. Participants will either receive livmoniplimab (optimized dose) in combination with budigalimab +chemotherapy or placebo in combination with pembrolizumab +chemotherapy. Chemotherapy consists of IV Infused pemetrexed + IV infused cisplatin or IV infused or injected carboplatin. Approximately 840 adult participants will be enrolled in the study across 200 sites worldwide. Stage 1: In cohort 1, participants will receive intravenously (IV) infused livmoniplimab (dose A)+ IV infused budigalimab, + chemotherapy for 4 cycles followed by livmoniplimab + budigalimab + IV Infused pemetrexed. In cohort 2, participants will receive livmoniplimab (dose B) + budigalimab + chemotherapy for 4 cycles followed by livmoniplimab + budigalimab + pemetrexed. In cohort 3, participants will receive budigalimab + chemotherapy for 4 cycles followed by budigalimab + pemetrexed . In cohort 4, participants will receive IV Infused pembrolizumab + chemotherapy for 4 cycles followed by pembrolizumab + pemetrexed. Stage 2: In arm 1, participants will receive livmoniplimab (dose optimized) + budigalimab + chemotherapy for 4 cycles followed by livmoniplimab + budigalimab + pemetrexed. In arm 2, participants will receive IV Infused placebo + pembrolizumab + chemotherapy for 4 cycles followed by pembrolizumab + pemetrexed. The estimated study duration is 55 months. There may be higher treatment burden for participants in this trial compared to their standard of care. Participants will attend regular visits during the study at a hospital or clinic and may require frequent medical assessments, blood tests, questionnaires, and scans.
This study is a single arm, open design aimed at evaluating the safety and tolerability of Autologous Tumor-Infiltrating Lymphocyte (GT201 injection ) in combination with teraplizumab injection for treatment of patients with non-small cell lung cancer,while evaluating pharmacokinetic characteristics and efficacy assessment to determine the optimal biological dose (OBD).
Patients with lung cancer have poor physical activity and increased sedentary behavior, with the presence of high levels of fatigue. A randomized controlled trial will be carried out to compare usual care versus a personalized exercise program in the community, in order to explore the changes on physical activity and sedentary behavior and its impact on cancer-related fatigue.