View clinical trials related to Respiratory Tract Neoplasms.
Filter by:Lung cancer is the leading cause of cancer death in North America and in the world. The vast majority of lung cancers are associated with cigarette smoking. Unfortunately, the majority of lung cancers are detected at an advanced stage when they have a very poor prognosis. A substantial amount of data has been reported on low-dose computed tomography (LDCT) screening. Yet endorsement of lung cancer screening has not been universal because of outstanding concerns which need to be addressed. Our study will aim to screen at risk Albertans for lung cancer with LDCT scan at baseline, year 1 and year 2 while attempting to fill some knowledge gaps on this topic.
Solitary pulmonary nodule has become a major challenge in respiratory clinical practice. According to published guidelines, their management often requires close CT follow up, PET CT and invasive procedures to obtain a definite histology. In this context, innovative endoscopic techniques refered as navigational bronchoscopy have proved to be efficient, for the localization and sampling of peripheral lung nodules. However, these techniques are unable to differentiate malignant lesions from benign ones, in-vivo, in real time. Confocal endo-microscopy (CELLVIZIO) of the distal lung - also refered as distal lung probe based confocal laser endo-microscopy or alveolar lung endo-microscopy - allows in-vivo imaging of the distal lung structures in real time. This prospective trial we will assess confocal endoscopy as a tool to localize the peripheral lung nodules and to differentiate benign from tumoral lesions. Objective(s) 1. To demonstrate that confocal endo-microscopy is not inferior to navigational endoscopy for the localisation of peripheral lung nodule 2. To demonstrate that confocal endoscopy can differentiate benign from malignant tumors Experimental design: Multicentric prospective controlled trial, conducted in three academic centers, specialized in interventional bronchoscopy, equipped with both navigational bronchoscopy and probe based confocal endo-microscopy. Subjects with peripheral lung nodule requiring navigational bronchoscopy will be explored using both Confocal endoscopy AND navigational bronchoscopy. Confocal probe will be inserted in the same catheter as used for the navigational bronchoscopy and confocal images will be recorded before sampling. An ancillary study using topical methylene blue as in situ will be conducted at the Rouen University Center. An ancillary protocol includes the use of in situ methylene blue deposition and 660 confocal endo-microscopy analysis.
This phase I trial studies the side effects and best dose of bevacizumab and temsirolimus alone or in combination with valproic acid or cetuximab in treating patients with a malignancy that has spread to other places in the body or other disease that is not cancerous. Immunotherapy with bevacizumab and cetuximab, may induce changes in body's immune system and may interfere with the ability of tumor cells to grow and spread. Temsirolimus may stop the growth of tumor cells by blocking some of the enzymes needed for cell growth. Drugs used in chemotherapy, such as valproic acid, 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. It is not yet known whether bevacizumab and temsirolimus work better when given alone or with valproic acid or cetuximab in treating patients with a malignancy or other disease that is not cancerous.
During Phase 1b portion, there will be a dose-escalation of AV-299 (formerly SCH 900105) in combination with the recommended dose of gefitinib in subjects with NSCLC or advanced solid tumor. The objective is to determine the safety, tolerability, dose limiting toxicity (DLT) and recommended Phase 2 dose (RP2D) in combination with gefitinib for the Phase 2 portion. The Phase 2 is an open-label, 2-arm, randomized study designed to compare the combination of AV-299 (formerly SCH900105) and gefitinib versus gefitinib alone in clinically selected Asian subjects with previously untreated lung adenocarcinoma who have a high likelihood of harboring activating EGFR mutations. Subjects who progress after initial disease control in the gefitinib alone arm may crossover to the combination arm.
Octreotide (OCT) is a somatostatin analogue (SSA) available in a long-acting formulation, conventionally administered every 28 days at the maximum dose of 30 mg. Together with lanreotide, it is considered the therapy of choice in the control of endocrine syndromes associated with neuroendocrine tumors (NET)s. A complete or partial clinical response to SSA therapy is generally achieved in at least 50% of the patients with neuroendocrine syndrome. Many studies reported a clinical response in 70-90% of functioning NETs. In about 36-50% of the patients with progressive advanced well differentiated NET (WDNET), a stabilization of disease occurs after treatment with subcutaneous OCT. By developing long-acting slow-release SSA formulation, long-acting OCT (LAR), lanreotide-SR, lanreotide-Autogel, the patient's compliance to SSA therapy was improved and escape from treatment, which was common with the subcutaneous formulation, was avoided. However, rate of objective response was not significantly improved as compared to short-acting SSA. On the other hand, it has to be remarked that long-acting SSA are being used in NET patients at doses correspondent to the low doses of short-acting formulation. The higher commercially available doses of LAR is 30 mg, which is assumed to be comparable to 300 µg of short-acting OCT in the therapy of acromegaly. Only one study was designed to investigate the use of high-dose LAR (160 mg every 28 days). In this study, objective and hormonal responses in patients with progressive metastatic ileal NET non-responder to standard doses, was significantly elevated. However, this compound has never been commercialized and, of consequence, this first preliminary observation has not been confirmed by further studies. No systematic studies were performed with the commercially available long-acting SSA used in high-dose treatments. In patients with progressive locally advanced or metastatic NET, increase of the dose or reduction of the interval between injections is a relatively common "empirical" clinical practice, but no studies have been performed to evaluate safety and efficacy of this treatment schedule.