View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The purpose of this study is to find out what effects, good and/or bad, proton radiation at a higher tumor dose (and lower normal surrounding lung dose) combined with standard chemotherapy has on lung cancer. The dose you receive to the tumor will be higher than the standard dose. This may be able to increase the control of the tumor. Due to the accuracy of radiation given with protons, the dose to the normal lung tissue that surrounds the tumor will be lower than standard. This may be able to reduce the frequency and severity of the usual radiation side effects.
The current understanding of PR104 justifies the evaluation of PR104 with docetaxel in subjects with Non Small Cell Lung Cancer (NSCLC). These include: - Aldo-keto reductase 1C3 (AKR1C3). NSCLC has been shown to express high levels of AKR1C3 in about one half of tumors tested. Subjects with high levels of AKR1C3 should have increased activation of PR104 within their tumor. - Hypoxia. NSCLC has been demonstrated to be a tumor with hypoxia based on both direct tumor measurements (oxygen electrodes) and hypoxic positron emission tomography (PET) imaging. Tumor hypoxia in NSCLC should be sufficient to activate PR104 to its active metabolites PR104H and PR104M. - Preclinical data. The use of docetaxel and PR104 alone and in combination in preclinical models demonstrates activity of PR104 as a single agent and supraadditive activity when PR104 and docetaxel are used in combination. - Manageable toxicity. PR104 and docetaxel with Granulocyte Colony-stimulating Factor (G-CSF) have been combined in a prior phase I study. A Maximum Tolerated Dose (MTD) has been identified and the major toxicities of this combination are understood. The current study will provide an estimate of the activity of PR104 in subjects with NSCLC. This information will prove valuable in defining the future clinical development of PR104, and in determining if PR104 has sufficient activity in NSCLC to warrant a larger phase III registration study in this indication. Primary objectives • Estimate the response rate (RR) of PR104/docetaxel Secondary objectives - Evaluate survival - Evaluate progression free survival (PFS) - Evaluate time to progression (TTP) - Evaluate safety - Evaluate the pharmacokinetics of PR104 and its metabolites - Evaluate the pharmacokinetics of docetaxel - Evaluate the tumor hypoxia using 18F-fluoromisonidazole (18F-MISO) PET imaging - Collect diagnostic biopsy samples for the determination of AKR1C3 - Collect plasma samples for assessment of potential biomarkers of tumor hypoxia
This is a study in patients with chemotherapy induced anemia receiving multi-cycle chemotherapy for the treatment of stage IV non-small cell lung cancer (NSCLC). The primary objective of the study is to demonstrate that overall survival (OS) is not worse in participants on darbepoetin alfa treated to a hemoglobin ceiling of 12.0 g/dL compared to participants treated with placebo.
Lung cancer remains the most frequent cause of cancer death in both men and women in the world. Surgical resection using lobectomy with mediastinal lymph node dissection or sampling has been a standard of care for operable early stage NSCLC. Several studies have reported high local control and survival using SBRT in stage I NSCLC patients. SBRT is now an accepted treatment for medically inoperable patients with stage I NSCLC and patients with operable stage I lung cancer are entered on clinical protocols. The purpose of this study is to conduct a phase III randomized study to compare CyberKnife SBRT with surgery, the current standard of care for stage I operable NSCLC.
To assess the efficacy and safety of erlotinib for non-small cell lung cancer patients with leptomeningeal carcinomatosis
The goal of the Phase I portion of this study is to find the highest tolerable dose of the combination of dasatinib and erlotinib hydrochloride that can be given to patients with advanced solid tumors. The goal of the Phase II portion of this study is to learn if this combination is effective when given to patients with non-small cell lung cancer. The safety of this combination will be studied in both phases.
This is a multi-center, 2-part phase 1b/2 study of AMG 655 in combination with AMG 479 to be conducted in the United States and Spain. Part 1 is a dose escalation segment to identify a dose of AMG 655 in combination with AMG 479 that is safe and tolerable. Part 2 will evaluate the safety and estimate the efficacy of AMG 655 at the dose selected in Part 1 in combination with AMG 479 for the treatment of patients with advanced NSCLC (non-squamous histology; squamous histology), CRC, pancreatic cancer, ovarian cancer, and sarcoma.
This is a randomized discontinuation study of ridaforolimus in patients with advanced NSCLC who have failed at least 1 but no more than 3 prior treatment regimens and who have KRAS mutant lung cancer. Following 8 weeks of open-label ridaforolimus lead-in there will be an assessment of disease status. Patients assessed by the investigator to have stable disease after 8 weeks will be randomized to double-blind treatment with ridaforolimus or placebo. Patients assessed to have partial or complete response will continue on open-label ridaforolimus. Patients assessed to have disease progression will be discontinued from study.
The purpose of this study is to assess the 2-month progression-free survival in patients with advanced or metastatic, non-squamous cell lung cancer treated with weekly low dose docetaxel in combination with a biologic dose of sorafenib.
According to the Cancer Atlas, lung cancer remains the major cancer among the 10.9 million new cases of cancer diagnosed annually worldwide. The mortality from lung cancer is greater than the combined mortality for breast, colon and prostate cancer combined. Most patients with metastatic non-small-cell lung cancer (NSCLC) are treated with platinum-based chemotherapy regimens. The drug combination of cisplatin and docetaxel is one of the commonly used regimens in metastatic NSCLC. Although both drugs are powerful disruptors of cell growth, positive therapeutic response rates to this therapy remain low for NSCLC patients, from 25% to 30%. While adding new biologics such as bevacizumab to the current treatment standard can improve treatment response, median survival for advanced NSCLC patients receiving this type of treatment remains low at under 12 months. Research studies have demonstrated that Vitamin D, and it's signaling pathways are important biological targets in cancer therapeutics. In vitro and in vivo calcitriol (1, 25 dihydroxycholecalciferol) is antiproliferative and potentiates the antitumor effects of cytotoxic agents (e.g. taxanes, platinum analogues). We have shown that administration of high doses of calcitriol and cisplatin is feasible and associated with complete tumor regressions in dogs with spontaneous cancers. Calcitriol has also shown to be synergistic with docetaxel both in preclinical as well as in a recent phase II clinical trial in prostate cancer. Based on these results and other supporting data from studies indicating that calcitriol functions as a potent and well tolerated anti-tumor agent when used in combination with drugs likes cisplatin and docetaxel, we hypothesize that introducing calcitriol into treatment regimes for NSCLC patients has the potential to demonstrably improve treatment response for these patients. The overall goals for conducting this phase I/II clinical study will be (1) to determine the maximum tolerated dose (MTD) and dose limiting toxicities (DLT) of calcitriol in combination with cisplatin/docetaxel in patients with advanced NSCLC, (2) to assess the response rates of patients with advanced NSCLC to the combination of calcitriol with cisplatin/docetaxel, (3) to evaluate the pharmacokinetics (PK) of administering calcitriol intravenously at the MTD, and (4) to evaluate correlations between calcitriol PK and changes on specific coding regions of the gene associated with calcitriol breakdown.