View clinical trials related to Pulmonary Cancer.
Filter by:This is a phase Ib/II open label study. The escalation part will characterize the safety and tolerability of JDQ443 single agent and JDQ443 in combination with the other study treatments (TNO155 and tislelizumab) in advanced solid tumor patients. After the determination of the maximum tolerated dose / recommended dose for a particular treatment arm, dose expansion will assess the anti-tumor activity and further assess the safety, tolerability, and PK/PD of each regimen at the maximum tolerated dose / recommended dose or lower dose.
One of the main challenges of thoracic oncology lies in earlier diagnosis of lung cancer to improve survival rate, wich is about 15% at 5 years. This poor prognosis is often linked to late diagnosis. Efforts are being made worldwide to offer testing in patients at risk or earlier diagnosis of lung cancer in order to offer the patient curative treatments. Indeed, supported at the stage of nodule (less than 3 cm lesion), lung cancer is curable by surgery in 80% of patients. Nevertheless, there are many differential diagnoses and access to these lesions is often difficult and risky. In this context, the management of pulmonary nodules, which can be either benign lesions or beginners cancers, is a real challenge for pulmonologists and thoracic oncologists every day: it is important not to disregard a potentially operable nodule and avoiding offer patients invasive procedures for benign nodules. Indeed, many procedures (endoscopy, puncture under scanner, thoracotomy) are made to determine if suspicious nodules are benign or not. In the large National Lung Screening Trial, 28% of the procedures were associated with complications (including 11% classified severe and 16 deaths). It is therefore essential to develop non-invasive tools to refine treatment decisions.
This study aims to compare the diagnostic performance of 18F-FDG and 18F-FSPG PET/CT in lung, breast, and abdominal cancers before undergoing therapy. In addition, the role of 18F-FSPG PET/CT in evaluating therapy response and prognosis will also be evaluated.
Does lung ablation improve clinical outcomes for patients deemed to be surgically high-risk?
Patients are asked to participate in this study if they have been diagnosed with a thoracic carcinoma which includes lung cancer and have a gene mutation (alteration in the body's genetic instructions) and after undergoing treatment the cancer has come back, progressed, or shown a partial response on standard treatment.
The study will utilize both retrospective and prospective data collection from patients that already had a bronchoscopy and lung resection or will have a bronchoscopy and lung resection for squamous cell carcinoma. The investigators plan to prospectively collect 5 bronchoscopic biopsies, 10ml blood and one tumor and adjacent normal samples from 200 qualified patients who meet the study criteria.
The purpose of this study is to show that the use of low volume iso-osmolar non-ionic radio contrast medium (30 cc) in a thoracic CT Scanning procedure in a selected group of patients with chronic kidney disease (CKD) will avoid contrast induced nephropathy (CIN) in comparison to a similar group of patients with CKD who receive no contrast medium..
The purpose of this study is to explore the detection of circulating tumor DNA, soluble immune markers, and the evaluation of peripheral blood mononuclear cells (PBMC).
The purpose of this study is to isolate and measure circulating tumor cells in the blood stream to advance detection of cancer and treatment monitoring. In this study, the investigators will utilize the novel technology for circulating tumor cell detection in order to evaluate their presence in patients with lung cancer.
As part of the long-term goal of successfully implementing tissue regeneration strategies in an individualized manner for patients with thoracic diseases including, but not limited to: cystic fibrosis, pulmonary fibrosis and pulmonary hypertension, the investigators will assess the feasibility of collecting skin biopsies from patients undergoing surgery for thoracic disease, culturing skin fibroblasts from the biopsy, and reprogramming these skin fibroblasts into induced pluripotent cells.