View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The patients carrying a complicated primary lung cancer brain metastases die in less than 3 months of delay disease in the absence of treatment. The median survival of these patients is approximately six months when the treatment associated with radiotherapy chemotherapy based on cisplatin is now the standard treatment. In most studies the patients die of their brain disease in one case only two, so it is likely that some patients do not require brain irradiation (prognosis in this case is linked to extra-cerebral disease ). The benefits for patients in group B (without systematic irradiation) are not to suffer the side effects of this radiation. The risks are in the same group to see brain metastases become symptomatic. The role of cerebral radiotherapy in the patients treated with chemotherapy is unclear: should all patients be irradiated systematically (since the "reference" treatment is involved and with the aim of obtaining better control of the brain lesions and maintaining a better neurological status) or should only the patients showing cerebral progression be irradiated (avoidance of possibly useless brain radiotherapy and its side effects). The aim of this study is to better determine the position of cerebral radiotherapy in this context. Main objective: determine whether there is a difference in terms of progression-free survival between a therapeutic strategy with initial systematic brain radiotherapy followed by chemotherapy cis-platine/alimta + / - Bevacizumab and strategy with an initial chemotherapy cis-platine/alimta + / - Bevacizumab associated with brain radiotherapy only in cases of cerebral progression in patients with NSCLC with asymptomatic brain metastases
Dose-dense chemotherapy is a chemotherapy treatment plan in which drugs are given with less time between treatments than in standard chemotherapy. The two chemotherapy drugs used in this study, docetaxel and cisplatin, are approved for the treatment of lung cancer when given every 21 days. This study is exploring the response to chemotherapy when these drugs are given every 14 days. In addition, genetic tests will be performed on pre-treatment specimens to identify signatures that may predict chemotherapy sensitivity or resistance.
TITLE : A Multicenter, Prospective, Observational Trial on the Prognostic and Dynamic Change of CTC Enumeration in Advanced NSCLC with 1st or 2nd line chemotherapy and targeted therapy BACKGROUND : Circulating tumor cells (CTC) identification is a new field of research in oncology, and some studies have been conducted with success on breast and prostate cancer. Nearly 80% of lung cancers are diagnosed in an advanced stage (IIIB, and IV). CTC identification and monitoring these cells after treatment could help the clinicians to detect relapse or be a prognostic factor. PRIMARY OBJECTIVE : To study the relationship between CTC count and clinical outcome of treatment (Overall response rate and Progression-free survival). SECONDARY OBJECTIVES :To study the relationship between CTC and overall survival. STUDY DESIGN : This is a prospective, observational study. Duration of the inclusions: 12months. SAMPLE SIZE : 1200 patients
The main purpose of this study is to evaluate how safe and effective the study drug known as abemaciclib is in participants with lung cancer.
Lung cancer is the second most commonly diagnosed cancer in the United Kingdom, accounting for 22% of cancer deaths. The main treatments for lung cancer are surgery, radiotherapy or chemoradiotherapy. Current methods, for assessing lung function in lung cancer patients i.e. spirometry and gas transfer are inadequate. We aim to develop a new technique capable of describing regional lung abnormality using hyperpolarized xenon gas MRI. The study will involve 50 patients diagnosed with lung cancer considered suitable for radical radiotherapy or chemoradiotherapy. Participants will be offered hyperpolarized Xe129 MR at baseline, two weeks after commencement of radiotherapy schedules and four followup visits over one year posttreatment. Patients will undertake extensive study measures at baseline and followup visits, including chest CT scans, ventilation/perfusion nuclear medicine scans, gadolinium enhanced MRI scans, pulmonary function tests, breathlessness scores, radiotherapy induced lung toxicity assessments and exercise testing. Participation in these full tests takes a day, allowing patients time to rest between tests and allowing for a period of observation following the final hyperpolarized xenon scan. The investigators will correlate baseline hyperpolarized Xe129 MR imaging with spirometry and breathlessness scores to determine if tolerance for radiotherapy is better predicted by hyperpolarized Xe129 MR imaging. The investigators will evaluate changes in hyperpolarized Xe129 MR imaging before and after radiotherapy (RT) to determine if it provides better monitoring of response compared with spirometry. The study will take place at the Churchill Hospital, Oxford University Hospitals National Health Service Trust and will be funded by the National Institute for Health Research Oxford Biomedical Research Centre. Hyperpolarized Xe129 MR imaging has the potential to inform individual suitability for radiotherapy schedules better than the investigations used currently. In addition, hyperpolarized Xe129 MR imaging has the potential for better monitoring of treatment response and improved detection of radiation induced lung injury, invaluable to treating patients with radiation induced injury.
Study comparing two regimens of nab-paclitaxel and carboplatin combination in elderly subjects (≥ 70 years old) with advanced NSCLC
The results of fastact2 show that chemotherapy plus erlotinib significantly prolonged PFS and OS of patients with NSCLC. However, outcome of the combination therapy are similar to those reported in several trials of single-agent EGFR TKIs. So which is the optimal first-line treatment for patients who harbored a sensitive EGFR mutation? The investigators need a head-to-head study to reply.
The purpose of this study is to evaluate the safety and anti-tumor effect of rociletinib. The trial is open-ended, which means patients will continue to take rociletinib until the study doctor determines it is no longer beneficial for them.
Background: - Lung cancer is the leading cause of cancer-related death worldwide. It causes more than one million deaths every year. Researchers want to gather tissue samples from people with lung and thymic cancers to understand the disease better. This may lead to new ways to diagnose and treat it. Objective: - To collect tissue samples for use in the study of lung cancers. Eligibility: - Adults over age 18 with non-small cell lung cancer, small cell lung cancer, extra pulmonary small cell cancer, pulmonary neuroendocrine tumors, and thymic epithelial tumors. Design: - Participants will be screened with a medical history, physical exam, and blood tests. They will be asked about how they perform their daily tasks. - Participants may be asked to give urine and blood samples. They may give a saliva sample if they cannot give blood. They will also give a sample of their tumor from a biopsy they had. They may also be given the option to undergo a biopsy. - Participants may have MRI, CT, and/or PET scans of the body. They will lie in a machine that takes pictures of the body. - After visits to the Clinical Center end, researchers will contact participants by phone every year to check on their health.
Stereotactic ablative radiotherapy (SABR) is a new radiation treatment that delivers high-dose, precise radiation to small tumors in 1-3 weeks of treatment. The study combines SABR and surgery to treat non-small cell lung cancer. SABR will be done first, with surgery done approximately 10 weeks later. There will be some extra imaging done before and after the SABR. The purpose of this study is to determine how effective SABR is in killing the cancer cells, and if SABR can help make surgery more effective.