View clinical trials related to Non-Small Cell Lung Cancer.
Filter by:The aim of this study is to investigate the efficacy and safety of intercalated combination of erlotinib and radiotherapy for patients with EGFR-mutant, unresectable, locally advanced NSCLC, and to explore a new treatment strategy for this subset. After Induction by erlotinib, local radiotherapy is intercalated, and followed by 24-week erlotinib maintenance.
After a screening phase of up to 42 days, eligible subjects will undergo two whole body immuno-PET scans with a non-therapeutic tracer dose (2 mg) of 89Zr-pembrolizumab; one with and one without a preceding "cold" therapeutic dose of pembrolizumab. For the first 3 patients, PET scans will be obtained at 1, 72 and 120 hours post tracer injection to determine the optimal scan time point and to perform biodistribution measurements and dosimetry. All subsequent patients receive only 1 PET scan post-injection (i.e. two PET scans). The optimal time point is expected to be at day 5 post-injection. Pembrolizumab treatment will continue every three weeks until two years of therapy have been administered, disease progression, or unacceptable adverse event(s).
This is an open label, multi-institutional, single arm study with a dose escalation phase Ib cohort, followed by a phase II cohort of pembrolizumab and Imprime PGG. No randomization or blinding is involved.
The purpose of this neoadjuvant study is to compare nivolumab plus chemotherapy and chemotherapy alone in terms of safety and effectiveness, and to describe nivolumab plus ipilimumab's safety and effectiveness in treating resectable NSCLC. This study has multiple primary endpoints.
The purpose of this study is to investigate risk factors for mediastinal lymph node metastasis in potentially operable non-small cell lung cancer in order to find indications for endoscopic mediastinal staging. Chest CT, integrated PET/CT, and endobronchial ultrasound guided transbronchial needle aspiration (EBUS-TBNA) +/- endoscopic ultrasound with bronchoscope-guided fine needle aspiration (EUS-B-FNA) are performed for mediastinal staging. CT and PET/CT findings, histologic types and other risk factors will be analyzed. The investigators develop the prediction method for mediastinal metastasis.
Lung cancer is the leading cause of cancer death in both men and women in the United States. In 2014, an estimated 224,210 men and women were diagnosed with carcinoma of the lung and bronchus, resulting in 159,260 deaths. Per the current National Comprehensive Cancer Network (NCCN) guidelines, the standard of care for early-stage non-small cell lung cancer (NSCLC) is lobectomy with lymph node dissection. Historically, medically inoperable early-stage NSCLC patients have been offered definitive external beam radiotherapy (EBRT) as primary management but, overall, studies have consistently shown poor patient outcomes. Stereotactic body radiation therapy (SBRT) is a technique which delivers very high doses of radiation per fraction over one to five fractions to precisely defined volumes with steep dose gradients. SBRT is commonly utilized for the treatment of biopsy-proven early stage NSCLC in the medically inoperable patient.
Eligible patients are administered with oral icotinib 125mg three times daily for two months, in which responsive patients (partial response and stable disease) are randomized (1: 1: 1) and receive icotinib plus concurrent radiotherapy, or chemotherapy plus concurrent radiotherapy, or icotinib monotherapy.
People who may be at increased risk of lung cancer due to age and smoking history will be invited to participate in this international study to determine the best way of using computed tomography (CT) of the chest to screen for early lung cancer. Overseas data show that CT screening (screening tests can find diseases early, when they're easier to treat) can reduce deaths from lung cancer and this study will help determine who is most likely benefit from screening.
The purpose of this study is to develop radiation plans that will help preserve lung function in healthy tissue surrounding the tumor. We believe that 4DCT scans can be useful in designing radiation treatment plans that help us avoid healthy normal functioning lung tissue close to lung tumors. Currently 4DCT scans are used to help us determine exactly where the tumor is and how it moves when you breathe. In this study we will also use the 4DCT scans to try to identify high functioning normal lung tissue.
Targeted next generation sequencing (NGS) provides a promising method for diagnostic purposes by enabling the simultaneous detection of multiple gene mutations. This study is to evaluate the feasibility and application value by using NGS into identifying genomic mutations in multiple or multifocal primary lung cancers in cell-tumor DNA (ctDNA) from surgical patients