View clinical trials related to Lung Cancer.
Filter by:The purpose of this study is to incorporate feedback from cancer patients and providers to adapt, implement, and test an intervention. The intervention aims to prompt screening for financial distress, facilitate discussions about care costs with cancer patients, support health insurance selection, and ultimately reduce cancer patients' financial toxicity associated with cancer care.
The trial was designed to explore the safety and efficacy of sintilimab combined with gemcitabine and carboplatin in the treatment of advanced LELC.
In radiotherapy, tumour tracking allows us to ensure the radiation beam is accurately targeting the tumour while it moves in a complex and unpredictable way. Most tumour tracking techniques require the implantation of fiducial markers around the tumour. Markerless Tumour Tracking negates the need for implanted markers, enabling accurate and optimal cancer radiotherapy in a non-invasive way.
Lung cancer is the leading cause of cancer-related death worldwide. Thoracoscopic pulmonary resection is a prevalent management for early stage of lung cancer. Placement of traditional chest tube is the standard procedure after surgery, which causes pain that cannot be ignored. We aimed to determine whether a modified thoracic drainage strategy based on pigtail catheter associated with better clinical results compared with traditional methods after thoracoscopic surgery for lung cancer.
The investigators will conduct a pragmatic clinical trial to test the effect of patient navigation on lung cancer screening (LCS) low-dose computed tomography (LDCT) completion among Boston Health Care for the Homeless Program (BHCHP) patients at increased risk for lung cancer. Patient navigation is a strategy for guiding individuals through complex health systems, and the investigators hypothesize that this may be a promising approach for helping homeless-experienced people overcome their unique barriers to obtaining LCS. The investigators will aim to recruit 300 people to participate in this research study; 100 will be randomly assigned to arm 1 (usual care) and 200 will be randomly assigned to arm 2 (patient navigation). Randomization of participants will be stratified by smoking status, housing status, clinical site, and whether they have previously discussed LCS with their primary care provider (PCP) to ensure balance between study groups on these variables. People assigned to the usual care arm will be referred back to their PCP for further management. People assigned to the patient navigation arm will be given the chance to work with a LCS navigator. The navigator will assist participants and their PCPs with all aspects of the LCS process in addition to offering brief tobacco counseling for current smokers. The primary aim of the trial is to determine-among homeless-experienced people who are eligible for LCS-the effect of patient navigation on 1) LCS LDCT completion at 6 months post-enrollment and 2) LCS LDCT completion at 6 months with diagnostic follow-up of abnormal results within 1 month of the recommended time frame. Study outcomes will be assessed by examining participant health records. Following the intervention, qualitative interviews will be conducted with 40 participants and 10 BHCHP PCPs to better understand how the LCS process unfolds in the setting of homelessness, the ways in which the navigator facilitated this process, and opportunities for improving the navigation intervention for future use.
Endobronchial ultrasound (EBUS)-guided transbronchial needle aspiration is a procedure used to obtain tissue samples (biopsies) of lymph nodes near the airways or of lung tumours growing in close proximity to the airways. Briefly, an endoscope with an ultrasound probe which is inserted through the mouth and into the airways. Once in the airways, the ultrasound allows for identification of the optimal biopsy site; a hollow biopsy needle is then inserted into the tissue under real-time ultrasound visualization and a sample is extracted. In the investigator's centre, the extracted sample is then immediately subjected to rapid on-site evaluation (ROSE). During the ROSE procedure, a cytotechnologist uses part of the sample to make a limited number direct smears which are then rapidly stained and evaluated under a microscope by the cytotechnologist. The cytotechnologist provides an assessment of the adequacy of the sample for diagnosis. The respirologist performing the EBUS then uses this information to: i) determine whether additional sampling is required, and ii) triage any additional samples for ancillary studies as needed. A final cytopathological diagnosis is established several days later, when all of the material from the procedure (including the material not evaluated at ROSE) is examined by a cytopathologist. There are different techniques which are utilized to perform the needle aspiration biopsy. Suction aspiration (where pressure suction is applied to the needle to draw out material) which is the standard at many centres around the world and capilliary suction (where a tiny wire is drawn back slowly to create more gentle suction force) which is utilized often at LHSC. The purpose of this study is to evaluate for differences in ROSE adequacy between these two methods.
To use the molecular probe PET radionuclide (Ga-68 or F-18) WL12 peptide to detect the expression of PD-L1 in the primary and metastatic lesions in patients with solid tumor; to detect the expression heterogeneity of PD-L1 in the lesion and inter-lesions; to observe the change of PD-L1 expression in the course of treatment. To provide an approach for screening patients with high expression of PD-L1, efficacy monitoring, drug resistance and early warning of recurrence and metastasis to achieve the Individualized antitumor treatment of targeted drugs.
Lung cancer is currently one of the most common malignant tumors in the world. In recent years, with the popularity of high-resolution CT, more and more early-stage lung cancers have been found. Anatomic pneumonectomy is gradually popular because it can completely remove lung nodules and preserve lung function to the greatest extent. During the surgery, the precise and rapid determination of intersegmental border is one of the key technologies. Improved inflation-deflation method is currently the most widely used method in clinical practice. Previous studies demonstrated that increasing the concentration of nitrous oxide in mixtures of N2O/O2 will lead to a faster rate of collapse. The rapid diffusion properties of N2O would be expected to speed lung collapse and so facilitate surgery. This study was designed to explore three types of inspired gas mixture used during two-lung anesthesia had an effect on the intersegmental border appearance time during pneumonectomy and its feasibility and safety: 75% N2O (O2: N2O = 1: 3), 50% N2O (O2: N2O = 1: 1), 100% oxygen.
The objective of the study aims to collect tumor tissue at the moment of progression under Immune checkpoint inhibitors (ICI) in biological resources center in Ambroise Paré hospital, in order to insure later study on molecular mechanism involving the progression of NSCLC and SCLC under ICI. The further analysis of research will be performed in the EA 4340 unity, Biomarkers and Clinical Trials in cancerology and onco-hematology, UVSQ, University of Paris-Saclay.
Image-guided percutaneous lung biopsy is an essential procedure in lung cancer management, where it is integral to confirming the diagnosis and determining tumour histology. An ideal percutaneous lung biopsy also needs to have a short procedure time with accurate needle placement to minimize the inherent risk of the procedure. Since the 1970s, conventional Multi-detector CT (MDCT) has been the modality of choice in percutaneous lung biopsy. Recent research has proposed CT fluoroscopy and cone-beam CT (CBCT) as alternative methods. Virtual guidance has been developed to improve target visibility and access for these complex cases. More specifically, it plans a potential computed 3D needle path before the procedure, using the CBCT images. This 3D path can be transposed onto real time fluoroscopic images to guide the biopsy, thus potentially improves patients' safety due to more accurate needle placement.