View clinical trials related to Lung Neoplasms.
Filter by:This phase I trial studies the side effects and best dose of cord blood-derived expanded allogeneic natural killer cells (donor natural killer [NK] cells) and how well they work when given together with cyclophosphamide and etoposide in treating children and young adults with solid tumors that have come back (relapsed) or that do not respond to treatment (refractory). NK cells, white blood cells important to the immune system, are donated/collected from cord blood collected at birth from healthy babies and grown in the lab. Drugs used in chemotherapy, such as cyclophosphamide and etoposide, work in different ways to stop the growth of tumor cells, either by killing the cells, by stopping them from dividing, or by stopping them from spreading. Giving NK cells together with cyclophosphamide and etoposide may work better in treating children and young adults with solid tumors.
This phase I trial with dose-escalation stage and dose-expansion stage is the first-in-human study of FCN-411, a drug being developed for treatment of advanced cancers. The initial purpose of the study is to determine the maximum tolerated dose (MTD) and the recommended phase 2 dose (RP2D) of FCN-411 monotherapy in EGFR-positive mutation non-small cell lung cancer chinese patients. The study will also provide early information on how the body handles the drug (pharmacokinetics) and on the anti-tumor activities of FCN-411.
Lung cancer is the most common cause of cancer death in Canada. For approximately 30% of patients that present with locally-advanced non-small cell lung cancer (NSCLC), the standard treatment is curative-intent concurrent chemoradiotherapy. Outcomes remain poor, with 5-year survival of only 20%. Despite the long-held belief that higher radiation doses lead to improved overall survival (OS), the landmark randomized trial (RTOG 0617) showed the opposite. The investigators hypothesize that the inferior survival observed may be due to unexpected heart toxicity as secondary analysis revealed that the heart dose was a strong predictor of inferior OS. Up to now, change in heart function is typically detected histologically, requiring autopsy tissue. Therefore, a non-invasive marker of early heart damage is required. Hybrid PET-MRI has become available in Canada only recently. The ability to simultaneously perform metabolic imaging with functional and tissue imaging allows for novel assessment of heart toxicity. The primary objective is to examine the utility of hybrid PET-MRI and DCE-CT to assess acute changes in heart function and to measure inflammation before, and six weeks after NSCLC radiotherapy. A pilot of 20 patients with Stage I-III NSCLC will be enrolled. The findings of this study will aid in the design of new studies to reassess dose escalation for locally advanced NSCLC while limiting the risk of heart toxicity. FDG PET will be used to simultaneously assess both cardiac inflammation and tumour response. Quantitative DCE-CT will also be used to measure ventilation and perfusion changes in the normal lung and tumour after radiotherapy, providing image data that can comprehensively assess both tumour response and potential toxicity in both the heart and lungs. Such information is crucial in understanding the disease and its response to treatment. This data will also aid in the design of radiation techniques that spare the heart in other patients with any thoracic malignancies, including breast cancer, lymphoma, and esophageal cancer.
The purpose of the study is to evaluate the efficacy and safety of Sheng Bai oral liquid in prevention and treatment of the decrease of neutrophilics after chemotherapy in patients with non-small-cell lung cancer.
Natural killer (NK) cells can kill a broad array of tumor cells in a non-major histocompatibility complex(MHC)-restricted manner. Adoptive transfer of NK may prolong the survival of patients with cancer. This study evaluates the efficacy and safety of NK cell-based immunotherapy for small-cell lung cancer (SCLC) after first-line chemotherapy. Half of the participants will receive autologous adoptive transfer of NK cells after the response from first-line chemotherapy, while the other half will be followed up in routine clinal practice.
This is a prospective, randomized, multicenter clinical study designed to evaluate its safety and efficacy by using Docetaxel with or without Traditional Chinese Medicine XH1 in patients with Stage ⅢB-Ⅳ Non-small Cell Lung Cancer (NSCLC) who failed with first-line Chemotherapy. The primary outcome measure includes progression-free survival (PFS) after treatment. Secondary outcome measures include collecting biomarkers before and during treatment, overall survival (OS), objective response rate (ORR), disease control rate (DCR), and patient's quality of life.
This is a randomized phase III trial that will randomize elderly patients(70 years of age and older) who are not considered eligible for standard doublet or triplet regimens. In a 2:1 fashion, patients will be randomized to the customization arm or the standard arm, respectively. This trial will be offered to patients who are previously untreated for stage IV NSCLC. The primary objective is to evaluate if chemotherapy selection based on histology and tumoral molecular determinants ERCC1, RRM1 and TS (arm A, the experimental arm) results in superior outcome in elderly patients with untreated, advanced NSCLC compared to standard of care treatments (arm B, the standard arm).
Lung cancer is the most leading cause of cancer-related mortality worldwide. Most of the patients with lung cancer are advanced stage at the time of diagnosis. The two oncogenes that are important in lung cancer are epidermal growth factor receptor (EGFR) and K-ras, mutated in 10% and 15% of non-small cell lung cancer (NSCLC) patients. Large-scale DNA sequencing efforts have identified mutations in BRAF, PI3KCA and ERBB2 that together represent another 5% of NSCLC patients. The success of EGFR tyrosine kinase inhibitors (TKIs), such as gefitinib or erlotinib, and more recently ALK/MET TKI, crizotinib, highlights the need to develop more genetically matched therapies. Therefore, genetic classification of lung cancer has become increasingly important along with the advances with targeted therapies. ROS1 is a receptor tyrosine kinase with constitutive kinase activity. ROS1 was previously discovered in cell lines where ROS1 fused with other proteins to act as a driver oncogene. In 2007, Rikova et al reported ROS1 fusion as driver mutations in NSCLC cell line (HCC78; SLC34A2-ROS1) and NSCLC patient (CD74-ROS1). Li et al also found about 1% of samples harboring CD74-ROS1 fusion in 202 resected lung adenocarcinomas from never smokers. The incidence was as high as 10% in East Asian population. Currently there are now at least 13 ROS1 fusion variants involving 8 fusion partners (CD74-, SLC34A2-, FIG-, TPM3-, SDC4-, LRIG3-, ERZ-, KDERL2-) identified in ROS1 positive NSCLC. Interestingly, preclinical and clinical data have shown ROS1-positive tumors are sensitive to crizotinib, because of potentially high common amino acid residues in the kinase domain between ALK and ROS1, which explain why crizotinib can inhibit both ROS1 and ALK to similar extent. Preliminary report from a phase I clinical trial of crizotinib in the ROS1-positive NSCLC expansion cohort showed an overall response rate (ORR) of 57%. Given that crizotinib has made remarkable clinical outcomes in phase I trial of ALK-positive NSCLC patients, clinical development of ROS1 inhibitors, including crizotinib, should be accelerated to provide targeted therapies to ROS1-positive NSCLC patients.
The main purpose of this study is to evaluate the relapse free survival of patients who have EGFR-mutant stage IIIA-IIIB Non-small Cell Lung Cancer and receive Icotinib as consolidation therapy after synchronous or sequential chemoradiotherapy.
Lung cancer is by far the leading cause of cancer death and has a lower relative survival rate than other types of cancer because most lung cancers are detected at an advanced stage when they are first diagnosed. Recently, a randomized control trial suggests that low-dose computed tomography (LDCT) enables an early stage detection and it has been increasingly accepted as an efficient screening method for high-risk individuals to reduce lung cancer mortality. In 2011, The National Lung Screening Trial (NLST) in the U.S. has produced results that screening high-risk smoking groups (who have at least 30 pack-year smoking history and currently smoke or have quit within the past 15 years) aged 55 to 74 years with LDCT reduced lung cancer mortality by 20%. Based on the evidence, Korean National Cancer Center has developed and published the guideline of lung cancer screening using LDCT for high-risk populations in 2015. The guideline recommends annual LDCT screening for high-risk smoking groups aged 55 to 74 years, with at least 30 pack-year smoking history and current smokers or past smokers who quit smoking within 15 years. The Korean Lung Cancer Screening project (K-LUCAS), a nationwide, multicenter, prospective study started to evaluate the effectiveness and feasibility of lung cancer screening with LDCT for considering implementation of a national lung cancer screening program in Korea.