View clinical trials related to Metastatic Lung Cancer.
Filter by:The purpose of this research is to determine the feasibility of a new supportive intervention, called Pathways, for patients with advanced stage and metastatic lung cancer.
This phase III trial studies immunotherapy and stereotactic body radiation therapy to see how well it works compared with immunotherapy alone after first-line systemic therapy (therapy that goes throughout the body) in treating patients with stage IV non-small cell lung cancer. Immunotherapy with monoclonal antibodies, such as pembrolizumab, may help the body's immune system attack the cancer, and may interfere with the ability of tumor cells to grow and spread. Stereotactic body radiation therapy uses special equipment to position a patient and deliver radiation to tumors with high precision. This method can kill tumor cells with fewer doses over a shorter period and cause less damage to normal tissue. Giving immunotherapy with stereotactic body radiation therapy may work better than immunotherapy alone in treating patients with non-small cell lung cancer.
Lung cancer is diagnosed at metastatic stage in 60% of the cases. For these patients, first-line treatment is based on histology and molecular characterization of non-squamous non-small cell lung cancer (NSCLC). Thus, quality and quantity of tumor tissue are crucial to determine the appropriate treatment (targeted therapies, chemotherapy and immunotherapy). However, in routine practice, tissue quality and quantity can be limited (25%), resulting in the need for tumor rebiopsy for molecular analysis. Therefore, lung cancer patients often experience substantial delays before treatment initiation that may be associated with worse patient experience of subsequent cancer care and poorer clinical outcomes. "Liquid biopsies" (LB) are used to detect genomic alterations in cell-free circulating DNA (cfDNA). Since very recently, they are routinely used in reference centers for the detection of EGFR-mutations when tissue is not sufficient for molecular characterization. Importantly, the feasibility and clinical relevance of systematic liquid biopsies in routine practice has never been evaluated in patients with suspicious advanced lung cancer. Investigators hypothesize that using systematic LB in patients with clinical suspicion of metastatic lung cancer may reduce time-to-treatment initiation and avoid tissue rebiopsy. Investigators performed a retrospective study including 250 NSCLC patients treated in a tertiary Cancer Center and in the University Hospital of Lyon, France. The mean time-to-appropriate frontline treatment initiation (TTI) was 42+/-22.5 days. With the use of LB at the time of first consultation, the investigators believe it is possible to reduce the mean TTI down to 33 days (21% reduction in TTI) in the overall population with suspicious metastatic lung cancer, including a 50% and 40% reduction in TTI for EGFR/ALK/ROS1/BRAF V600E subgroups and KRAS/LKB1/ERBB2/c-MET/BRAF non V600E subgroups, respectively. Investigators therefore designed a "real-life" randomized study to evaluate the feasibility and clinical relevance of LB to decrease the TTI, which may in turn improve patients' outcome. Genomic analyses of circulating cfDNA will be performed using a robust and highly sensitive technology (InVision®), that profiles the presence of genomic aberrations in a panel of 35 genes including mutations, insertion/deletions and rearrangements, including all actionable alterations required to initiate the appropriate first-line therapy (EGFR-, ALK-, ROS1 and BRAF V600E).
This study is a prospective, single-arm, multi-center, pilot trial of Bronchoscopic Thermal Vapor Ablation for Lung Cancer (BTVA-C) in patients with primary lung cancer or metastatic cancer in the lung. Patients who have consented to participate in this study (enrolled) will be subject to eligibility screening and baseline assessments, prior to undergoing the BTVA-C procedure. Only patients that meet all of the inclusion criteria and none of the exclusion criteria will receive vapor ablation treatment. Patients will be followed for up to 12 months.
The study is divided into two parts. The first part of the study will test various doses of ASN007 to find out the highest safe dose to test in five specific groups. The second part of the study will test how well ASN007 can control cancer.
AIO-YMO/TRK-0416 (DURATION) is a open-label, treatment stratified and randomized phase II study of Durvalumab, frail or elderly patients with metastatic non-squamous NSCLC with no targetable molecular alterations (EGFRwt; ALKtransl-) and not amenable to cisplatinum-based standard-combination chemotherapy but eligible for at-least mono-chemotherapy with gemcitabine or vinorelbine.
This study is a prospective, single-arm, multi-center, pilot trial of Bronchoscopic Thermal Vapor Ablation for Lung Cancer (BTVA-C) in patients with primary lung cancer or metastatic cancer in the lung. Patients who have consented to participate in this study (enrolled) will be subject to eligibility screening and baseline assessments, prior to undergoing the BTVA-C procedure. Only patients that meet all of inclusion criteria and none of the exclusion criteria will receive vapor ablation treatment. Patients will receive BTVA-C treatment followed by standard-of-practice surgical resection.
The purpose of this study is to find out what effects (good and/or bad) Pirfenidone combined with standard first-line chemotherapy will have on you and non-small cell lung cancer (NSCLC). The investigational drug Pirfenidone is being combined with standard chemotherapy in participants with advanced non-small cell lung cancer. Pirfenidone is approved to treat idiopathic pulmonary fibrosis (IPF) but it isn't currently approved to treat non-small cell lung cancer.
Bone metastases occur frequently during the evolution of solid tumors, either isolated or associated with visceral metastases. The incidence varies between 20 and 85% depending on the primary cancer. Breast, prostate, and lung cancers are responsible for 70% of bone metastases. Cancer with bone metastases compared to other metastatic sites is considered as associated with a better prognosis, particularly for breast and prostate cancer. Bone metastases may be present at diagnosis (synchronous metastasis) or appear at a later time (metachronous metastasis). The concept of "oligometastases" was proposed in patients with about 3 up to 5 metastases (without restriction on the primary site) and associated with an intermediate prognosis. It was hypothesized that local treatment with curative intent, aiming at the few metastatic sites, would yield long-term survival probabilities, along with systemic therapies. Long-term survivors have been reported after curative-intent treatment of metastasis in sarcoma and colorectal cancers with liver or lung metastasis. We chose to focus on bone metastasis because of their high incidence, their impact on the patient's quality of life and autonomy, and their accessibility to potentially curative radiotherapy. The systemic treatment of metastatic cancer includes hormonal therapy (breast and prostate cancer), biologically-targeted drugs and chemotherapy (all cancers). Stereotactic radiotherapy is a highly accurate technique was initially developed for performing the radiosurgery of brain tumors in patients for whom it was deemed be too difficult to proceed to classical excision surgery. In this process, a high total dose of radiation is delivered in a single fraction to a well-defined intra-cranial target. The concept of radiotherapy in stereotactic conditions was extended to one or several fractions delivered to small volumes primary tumors/ metastases in extra-cranial sites (Stereotactic Body RadioTherapy [SBRT]). At present, high control rates have been achieved for lung metastases. Similarly, very high local control rates have been reported in bone metastases after stereotactic radiotherapy. In this protocol, our purpose is to demonstrate, via a randomized phase III trial, that high doses of radiotherapy, delivered in stereotactic conditions to the bone metastases (between 1 and 5 metastases) in solid tumor patients is able to improve the survival without progression.
Among patients with advanced (metastatic) cancers, detailed characterizations of the tumor utilizing genomic and proteonomic techniques may help guide treatment. It, however, remains unclear if these new diagnostic technologies truly influence clinical and economic outcomes. This study will evaluate if patients treated according to the results of the NantHealth GPS Cancer test achieve optimal outcomes compared to patients whose treatment are discordant with GPS Cancer recommendations.