View clinical trials related to Lung Cancer, Non-Small Cell.
Filter by:This is a pilot study to assess feasibility of dried blood spot (DBS) samples for pharmacokinetic measurements of targeted anti-cancer drugs in oncology patients such as patients with BRAF-mutant melanoma receiving targeted treatment with BRAF and MEK inhibitors.
The purpose of this study is to determine the safety and efficacy of MILs™ - NSCLC alone and in combination with nivolumab with or without tadalafil in subjects with locally advanced and unresectable or metastatic NSCLC who are refractory or relapsing to a PD-1 containing regimen.
The study of volatile organic compounds (VOC) detected in exhaled air or in sweat, is an innovative research area for respiratory diseases. The volatolomic analysis can be done either by the technique of the mass spectrometry which allows the identification of each VOC in the exhaled air or by the technique of electronic nose, simpler and faster, which provides an idea of the general profile of the VOC without identifying them. The VOC have shown their interest in some situations, such as diagnostic or prognostic tool in patients followed for thoracic tumorous pathology or bronchial or pulmonary vascular diseases. Immunotherapy is a new therapeutic approach used in non small cell lung cancer in a late stage. VOC analysis could allow to identify biomarkers of early response to immunotherapy. The study of VOC could help in the optimisation of immunotherapy prescription in lung cancer.
A Phase 1/2, Open-Label Study of ADXS-503 Alone and in Combination with Pembrolizumab in Subjects with Metastatic Squamous or Non-Squamous Non-Small Cell Lung Cancer
RELANCE is a large multi-institutional study that aims to retrospectively collect information about diagnostic, treatment and outcome of patients diagnosed with locally advanced NSCLC in Brazil. It is hypothesized that there is a great heterogeneity in treatment patterns owing to inequities in access to adequate staging methods, optimal treatment and multidisciplinary teams in Brazil.
Bronchopulmonary cancer, with 39 000 new cases and 30 000 deaths per year, is a main issue in public health in France. It is the leading cause of cancer death in France. A lot of progress in medical care has been made, but surgery remains the most effective treatment, when it is still possible. The goal is to detect and manage the lung cancer as early as possible. Alongside screening strategies by annual thoracic scanner, new approaches with innovative technologies open up for cancer detection and therapeutic follow-up. The study of volatile organic compounds (VOC) detected in exhaled air or in sweat, is an innovative research area for respiratory diseases. The volatolomic analysis can be done either by the technique of the mass spectrometry which allows the identification of each VOC in the exhaled air or by the technique of electronic nose, simpler and faster, which provides an idea of the general profile of the VOC without identifying them. The VOC have shown their interest in some situations, such as diagnostic or prognostic tool in patients followed for thoracic tumorous pathology or bronchial or pulmonary vascular diseases. The composition of VOC in exhaled air and sweat is altered in patients with lung cancer. The VOC analysis and their variation could be used particularly in the follow-up of patients treated for lung cancer. The purpose of this clinical research is to identify the VOCs related to lung cancers by comparing the VOC profiles in exhaled air and in sweat from patients diagnosed with localized lung cancer before and after resection surgery.
Lung cancer (LC) remains a leading cause of death among cancers worldwide. Though radiotherapy is one of the most frequently used treatments, it increases side-effects (pain, fatigue) and inflammation, possibly leading to further tumorigenesis of surviving cancer cells. The purpose of this study is to test the effects of transcutaneous auricular VNS vagal nerve stimulation (taVNS), known to reduce inflammation, on radiotherapy-induced inflammation and other side-effects in LC patients undergoing radiotherapy. In this feasibility study 12 patients with NSCLC stage III (A/B) receiving radiotherapy will be enrolled. Our primary endpoint is the effect of vagus nerve stimulation (VNS) on inflammatory levels (such as CRP and cytokines), immunological factors (neutrophils, monocytes, lymphocytes) and the tumor marker CEA. Our secondary endpoint is the psychological well-being and quality of life of the patients during their radiotherapy treatment.
The feasibility of a RF ablation catheter to bronchoscopically ablate lung tumors, will be evaluated in patients already scheduled for surgical resection.
Patients will receive AZD9291 at a dose of 80 mg once daily. Systemic evaluation will be done by PET-CT scan after 6 weeks. In responding patients AZD9291 will be given orally 80 mg daily for 12 weeks. Non-responding patients will receive AZD9291 for the period of 6 or 12 weeks (according to the results of response assessment at each time-point).
This research study can help understand how cardiac changes may occur with radiation therapy to the heart based off measurements obtained through biomarkers and cardiac imaging. Researchers plan to perform cardiac imaging and biomarkers for any cardiac injury. Cardiac magnetic resonance imaging (CMR) provides the ability to quantitatively measure cardiac function and injury. The cardiac biomarkers that will be tested are effective in the diagnosis, risk-stratification, and monitoring of heart failure.