View clinical trials related to Lung Neoplasm.
Filter by:This is a Phase 1/2, open-label, first-in-human (FIH) study is designed to evaluate the safety, tolerability, pharmacokinetics, pharmacodynamics, and antitumor activity of BLU-701 as monotherapy or in combination with either osimertinib or platinum-based chemotherapy in patients with EGFRm NSCLC.
Prospective randomized open multicenter trial with blinded adjudication of endpoints to assess the efficacy of six-month low-dose LMWH (Low Molecular Weight Heparin) for the prevention of symptomatic or incidental VTE in patients with stage IV lung cancer and elevated D-dimer.
This randomized pilot clinical trial studies the effects of meditation-based breathing training on patients' control of their breathing patterns and breathing-related movement, as well as on their psychological distress and treatment experience during radiation therapy. Meditation-based breathing training may decrease breathing-related movement and the amount of stress by improving breathing patterns in patients with abdominal or lung cancer undergoing radiation therapy.
A tumoral obstruction of the main stem bronchus is frequently observed in the follow-up of lung cancers with a high impact on survival and quality of life of these patients. The endoluminal resection of these tumors through interventional bronchoscopy can remove the tumor but fails to prevent the recurrence. A stent insertion could achieve this goal but this option was never proved in a prospective protocol. The aim of this study is to analyze the impact of stent insertion on the survival without symptoms of bronchial obstruction in patients treated for their cancer with and without a first line treatment (chemo-radiotherapy or chemotherapy). The patients will be included after resection of the endoluminal symptomatic tumoral obstruction. We will test the effect of the silicone stent insertion ( from NovatechR ) by comparing a stent arm (170 patients with stent insertion) with a control arm (170 patients without stent). The inclusion period will last 3 years with one year of follow-up for each patient. The one-year survival without symptomatic recurrence (proved on bronchoscopy with more than 50% of obstruction in the treated zone) will be the main endpoint. All patients without symptomatic recurrence at one year will be controlled endoscopically. Survival and stent tolerance will be studied as secondary endpoints. All endoscopic events will be depicted on photographs or videos. Each endoscopical situation (before and after resection, recurrence or side effects of stents) will be analyzed and registered by an independent committee of 3 international experts.
The purposes of this study are fourfold. It will 1) determine what dose of interleukin-12 (IL-12) and interleukin-2 (IL-2) combination therapy can be given safely to patients with advanced cancer; 2) evaluate the side effects of this treatment; 3) examine how the body handles this drug combination; and 4) determine whether and how the therapy may cause the immune system to stop or slow tumor growth. IL-2 is an approved drug for treating melanoma and kidney cancer. IL-12 is an experimental drug that has shown anti-cancer activity in animals, shrinking tumors and slowing their growth. Animal studies suggest that given together, the drugs may be more effective against cancer than either one singly. Patients 18 years of age and older with advanced solid-tumor cancers (kidney, breast, lung, sarcomas and others) that do not improve with standard treatment may qualify for this study. Candidates will have a physical examination, including blood and urine tests, electrocardiogram (EKG) and echocardiogram, DTH skin test (to test the function of the immune system), chest X-ray and lung function tests to determine eligibility. Bone marrow biopsy and imaging procedures such as CT and MRI scans may also be required. Patients over 50 years old will also undergo exercise stress testing. Treatment will consist of four courses of IL-2 and IL-12. On days one and nine of each course, patients will receive three doses (one every 8 hours) of IL-2 intravenously (through a vein). On days two, four, six, 10, 12 and 14, they will receive IL-12 intravenously. This will be followed by a recovery period from days 15 through 35. This regimen will be repeated for another three cycles; patients who show benefit without severe side effects may continue for additional cycles. Treatment for the first cycle will be administered in the hospital. If the drugs are well tolerated, additional therapy may be given on an outpatient basis. A biopsy (removal of a small sample of tumor tissue) will be done at the beginning of the study, after completing the first treatment cycle, and possibly again when the cancer slows, stops or gets worse, or if the patient leaves the study. These tumor samples will be examined to evaluate the effects of treatment. Several blood samples also will be collected during the course of treatment to monitor immune system effects. A device called a heparin lock may be put in place to avoid multiple needle sticks. ...