View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:This prospective, unicentric, open-labe phase I study is to evaluate the effects of autologous cytokine-induced killer cell immunotherapy combination with PD-1 inhibitor and chemotherapy in the first-line treatment of IIIB/IIIC/IV non-small cell lung cancer.
Radiotherapy improves locoregional control and survival of thoracic tumour patients. However, the associated exposure of normal tissues, often leads to side effects and possibly even reduces survival. Indeed, there is growing evidence that overall survival after radiotherapy for lung and oesophageal cancer is related to the radiation dose to heart and lungs. This suggests that thoracic radiotherapy causes mortality, which is currently not recognized as radiation-induced toxicity. So the question arises how to explain this treatment-related mortality. Interestingly, Ghobadi et al demonstrated in rats that thoracic irradiation can lead to pulmonary hypertension (PH). Histopathological analysis showed that radiation-induced PH closely resembles the pulmonary arterial hypertension (PAH) subtype. Moreover, in a clinical pilot study we confirmed early signs of PH including dose-dependent reductions in blood flow towards the lungs in radiotherapy patients. In general PH significantly affects survival. Moreover, the PAH subtype is the most-rapidly progressive and lethal subtype. However, medical treatment can significantly slow down PAH progression, providing opportunities for secondary prevention. Yet, hard evidence that radiation-induced PH is a clinically relevant phenomenon in patients treated for thoracic tumours, is lacking.
A multicentre single arm phase II trial assessing the efficacy of immunotherapy, chemotherapy plus stereotactic radiotherapy to metastases followed by definitive surgery or radiotherapy to the locoregional primary tumour, in patients with histologically-confirmed synchronous oligo-metastatic non-small cell lung cancer (NSCLC).
This trial is a translational, open-label, multicentric, prospective cohort study of 900 patients aiming to describe the PD-1 (programmed death) expression in T cells (T lymphocytes) in different solid tumors. The study will be conducted on a population of patients with local and/or metastatic malignant solid tumor and who are followed within a standard of care procedure or clinical trial. Patients with any of the following tumor types may be enrolled in the trial: - Head and neck cancer, - Ovarian cancer, - Cervical cancer, - Pre-invasive CIN III cervical cancer (Cervical Intra-epithelial Neoplasia III cervical cancer), - Other solid tumor types (including glioblastoma, NSCLC (Non-small cell lung cancer), anal cancer) Each tumor type will be considered as an independent cohort. For each included patient, biological specimen (tumor sample, blood samples and ascites samples if applicable) will be collected. Study participation of each patient will be 5 years.
With the advent of CT screening for lung cancer, an increasing number of NSCLCs are being detected at very early stages, and the demand for pulmonary segmentectomy is rising rapidly. As such, there is a need to develop new surgical techniques to facilitate minimally invasive pulmonary segmentectomy, as segmentectomy may provide a number of significant advantages over lobectomy for patients presenting with early-stage lung cancer, or for patients unable to undergo a full lobectomy due to existing comorbidities. This study will provide the first case series using preoperative 3D anatomical planning (Synapse 3D) added to ICG and NIF-guided robotic segmentectomy to date and will be the first reported use of Synapse 3D-guided targeted pulmonary segmental resection in Canada. As lung cancer is the most frequently fatal cancer in North America, many thousands of patients will be able to benefit from this operation every year.
Study objective: Cohort 1: To quantify the uptake of 68GaNOTA-Anti-HER2 VHH1 in local or distant metastases from breast carcinoma patients and to assess repeatability of the image-based HER2 quantification. The uptake will be correlated to results obtained via biopsy of the same lesion, if available. Cohort 2: To report on uptake of 68GaNOTA-Anti-HER2 VHH1 in different cancer types that might overexpress HER2 Cohort 3: To explore the feasibility and added value of 68GaNOTA-Anti-HER2 VHH1 in the neoadjuvant setting of HER2-expressing breast carcinoma Time schedule: After inclusion, patients will be injected intravenously with 37 - 185 MBq 68GaNOTA-Anti-HER2 VHH1 with a total mass of up to 200 μg NOTA-Anti-HER2 VHH1. Serum and plasma samples will be collected at injection. At 90 min after injection, a total body PET/CT scan will be performed. Patients in cohort 1 will undergo a second PET/CT procedure, identical to the first procedure, within 8 days, with a minimal interval of 18h and maximal interval of 8 days. Patients in cohort 2 can undergo an optional 18F-FDG-PET/CT within 21 days prior to or after 68GaNOTA-Anti-HER2 VHH1. In cohort 1 and 2, based on PET/CT images, up to 2 lesions will be selected for optional image-guided biopsy. Biopsy will be performed max. 28 days after the last PET/CT. Plasma and serum samples will be obtained between 60 and 365 days after first injection for patients in cohort 1 and between 42 and 365 days after first injection for patients in cohort 2. Patients in cohort 3 will undergo 68GaNOTA-Anti-HER2 VHH1 PET/CT prior to the start of neoadjuvant treatment and again after the last cycle of neoadjuvant treatment but prior to surgery. Plasma and serum samples will be obtained before each injection and between 42 and 365 days after the last injection.
This is a Randomized, Double-Blind, Placebo-Controlled, Multicenter, Phase III Study to evaluate the efficacy and safety of Toripalimab injection (JS001) or placebo combined with chemotherapy in Advanced Non-small Cell Lung Cancer (NSCLC) Participants with TKI-resistant EGFR-mutated Tumors; and evaluate the population with the best predictive biomarkers, i.e., positive diagnosis population. About 440 subjects with advanced non-small cell lung cancer with activated EGFR mutation will be 1:1 randomized into two groups, JS001 combined with the standard 1st-line chemotherapy will be given in the study group whereas placebo combined with standard 1st-line chemotherapy will be given in the control group. The stratification will be based on the following factors: The history of the previous lines of EGFR-TKI treament ( 1st or 2nd generation of TKI vs. 3rd generation of TKI vs. 1st or 2nd generation of TKI + 3rd generation of TKI) ; Disease stage (IIIB-C vs. IV);
APG-2449 is a novel, orally active, multi-targeted tyrosine kinase inhibitor, which inhibits FAK, ALK, and ROS1 with nanomolar potencies. In preclinical studies, APG-2449 demonstrated potent antiproliferative activity in various cancer cell lines as a single agent. In combination treatment, APG-2449 enhanced anti-proliferative activities of several chemotherapeutic and targeted agents. It is indicated that APG-2449 may have a broad therapeutic potential for the treatment of human cancer as a single agent and in combination with other classes of anticancer drugs. APG-2449 is intended for the treatment of patients with advanced solid tumors. Upon completion of the Phase 1 dose escalation study to establish the maximum tolerated dose (MTD), dose-limiting toxicities (DLTs), and/or recommended phase 2 dose (RP2D), several phase Ib/II studies will be implemented accordingly.
This study is being done to better understand whether or not cemiplimab by itself and in combination with other treatments given prior to surgery will cause your tumor to respond in a beneficial way; whether the drug(s) are safe and what side effects they cause; and other details about how they function in the body. One of the treatments that will be combined cemiplimab is another experimental drug called fianlimab. In this form, cemiplimab and fianlimab will each individually be called "study drug" or "study drugs" when combined. Cemiplimab (also known as REGN2810) and fianlimab (also known as REGN3767) are both a type of drug called a monoclonal antibody. Antibodies are proteins naturally found in your blood that fight infections. A monoclonal antibody is a special kind of antibody that is manufactured as a medication to target specific proteins in the body that may be involved in your cancer. - Cemiplimab is a drug that blocks the programmed death receptor 1 (PD-1), a cell receptor on immune cells - Fianlimab is a drug that blocks the action of a protein called lymphocyte activation gene (LAG)-33 (LAG-3)
Basket trial concept to independently and simultaneously assess the effects of the association of atezolizumab + BDB001 + radiotherapy in multiple solid tumors.