View clinical trials related to Lung Neoplasms.
Filter by:Background: AZD6244 (ARRY-142886) is an investigational anticancer drug that is designed to block a critical component (MEK (methyl ethyl ketone)) of a pathway (MAP (mitogen-activated protein) kinase pathway) that causes some lung cancer cells to grow. The MAP kinase pathway could be overactive in a proportion of lung cancers, including some which also have another mutation in a protein known as KRAS (Kirsten rat sarcoma viral oncogene homolog). Approximately 20% of lung cancers have KRAS mutations which can make some cancer treatments including erlotinib, a standard anticancer treatment drug less effective. Researchers are interested in determining whether AZD6244 is effective in treating advanced NSCLC (non small cell lung cancer), including KRAS mutated lung cancer that has not responded to standard therapy. Objectives: To determine the effectiveness of AZD6244, either alone or in combination with erlotinib, in preventing tumor growth in individuals with NSCLC. Eligibility: Individuals at least 18 years of age who have been diagnosed with advanced NSCLC that has not responded to standard therapy. Design: - Participants will be screened with a medical history, physical examination, blood tests, imaging studies, and potentially, tumor biopsy tests to determine whether a participant's NSCLC contains mutations in the KRAS protein. - Participants will be divided into two groups based on the status of the KRAS protein in their NSCLC tumor cells: - Individuals with normal KRAS protein: Half will receive AZD6244 and erlotinib, and half will receive only erlotinib. - Individuals with mutated KRAS protein: Half will receive AZD6244 and erlotinib, and half will receive only AZD6244. - Participants will take their assigned medications daily (on an empty stomach in the morning and/or evening, depending on the treatment) for 28-day cycles of treatment. Participants will also keep a medication diary to record any side effects. - Participants will have frequent blood tests during the first cycle of treatment, and will have imaging studies or other tests as required by the study researchers. Participants may also have an additional tumor biopsy after the end of the first treatment cycle. - Treatment will continue until the disease progresses, significant side effects develop, the participant chooses to leave the study, or the researchers end the study....
To evaluate the efficacy and safety of Endostar combined with concurrent chemo-radiotherapy (CCRT) in patients with unresectable stage III non-small-cell lung cancer (NSCLC).
Successful treatment of non-small cell lung cancer with radiation therapy requires that the physicians determine exactly where the tumor is in your body, and protect your normal tissue. This study is designed to apply functional imaging, Fluorodeoxyglucose-Positron Emission Tomography (FDG-PET) before treatment, and then again during treatment to see if the procedure helps predict how well the treatment works for your cancer and how well your lung functions during treatment. FDG-PET is a modern technology that uses small amounts of a radioactive glucose (FDG) to make images of your whole body and areas of active cancer. A Computerized Tomography (CT) will also be performed along with both of these procedures to help the researchers see clearly where your cancer or your healthy lung is located. The study will help the investigator determine whether an adaptive plan that is applied based on repeat PET-CT imaging during the course of radiation therapy (during RT), can show if there is an improvement in treatment outcome compared to those treated with standard radiation therapy. This adaptive plan may allow your doctor to escalate the dose per treatment and the total dose of your treatment based on the risk of damage to your healthy lung tissue. While increasing the radiation dose, but limiting the toxicity to normal lung tissue, the researchers hope to improve your tumor control.
Weight loss commonly occurs in lung cancer patients, negatively influencing their quality of life, treatment response and survival. Gains in lean body mass are difficult to achieve in cancer unless specific metabolic abnormalities are targeted. It is our hypothesis that a nutritional supplement containing a high amount of essential amino acids will target the metabolic alterations of cancer patients. Preliminary research performed in our laboratory in elderly supports this hypothesis. We hypothesize that intake of an essential amino acid nutritional supplement will positively influence protein synthesis rate in advanced non-small cell lung cancer (NSCLC) patients. Furthermore, insight in the underlying mechanism of the higher anabolic response of the essential amino acid supplement will be examined. This information will potentially enable us to formulate a supplement that is more effective than normal food intake, and that will reduce the need for muscle protein breakdown.
The usual response to chemotherapy is decided through the image change by computed tomography (CT), which is taken at least 6-9 weeks. In order to predict the response to chemotherapy earlier, patients received FDG-PET scan at the first cycle of chemotherapy. Chemotherapy was guided by the metabolic response by FDG-PET scan.
Aim of the present retrospective study is to evaluate molecular factors of primary resistance to tyrosine kinase inhibitors in metastatic non small cell lung cancer (NSCLC) patients. The investigators assess first, the incidence of epidermal growth factor receptor (EGFR) and Kirsten ras sarcoma viral oncogene homolog (KRAS) mutations, SOS and hepatocyte growth factor (HGF) expression, anaplastic lymphoma kinase (ALK) translocation and expression and, secondly, the investigators correlate molecular markers with clinical features and outcome in terms of response rate, progression free survival and overall survival.
Lung cancer is responsible for the most deaths due to cancer each year in both men and women worldwide and once diagnosed, the 10 year survival rate is poor (<15%). This poor prognosis is based in large part on the absence of an effective diagnostic test for the disease. The chief objective of this study is to develop a molecular-based diagnostic test specific for lung cancer. Subjects suspected or diagnosed with lung cancers, who are either undergoing thoracentesis, biopsy of a suspicious lesion or surgical resection of their tumor will be asked to participate in this study. Those subjects, who will undergo surgical resection, will donate both lung tumor tissue and adjacent normal lung tissue (potentially including lymph nodes), while non-surgical candidates will donate a portion of their excess biopsy sample, if available, after diagnosis has been confirmed. Subjects undergoing thoracentesis for pleural effusion will donate a portion of their fluid sample, if the fluid volume collected is in excess of that needed for clinical care purposes. Blood samples and optionally saliva will also be collected from all subjects, whether undergoing surgery or not. In addition to biosample collection, detailed annotated demographic and clinical information will be collected from subjects. Subjects will be followed for outcome analysis, specifically for tumor recurrence, every 6 months, during 5 years. In case of change in chemotherapy treatment, biosamples and clinical information will also be collected. Collected biosamples will be analyzed using a series of molecular and proteomic technologies for developing biomarkers of the disease.
Lung cancer is the No. cause of cancer death in Taiwan. Yet most of lung cancer are diagnosed at late stage, not amenable to surgical resection. With the introduction of new targeted agents, such as EGFR tyrosine kinase inhibitors and the identification of EGFR mutations, lung cancer management has markedly changed in recent years. However, these new agents are costly and their payment is restricted in certain situations defined National Insurance Agency. Therefore, using databases from National Insurance Agency might not be able to reflect the exact impact on pharmacoeconomics. In this study, the investigators will analyze the data from a tertiary medical center, where all the costs including insurance reimbursement, co-payment, and payment not covered by insurance. The investigators will also compare with the investigators results with national database to analyze the cost benefit of these new agents on lung cancer.
The purpose of this study is to determine the validity of a multi-gene Lung Cancer Risk Test (LCRT). In the process, the investigators will establish a bank of NBEC samples and corresponding blood samples from individuals demographically at increased risk for lung cancer.
The purpose of this study is to establish the effects of VATS lobectomy for early-stage non-small cell lung cancer. The aims of this study are: 1. To evaluate the early clinical benefits of VATS lobectomy when compared with the axillary thoracotomy. 2. To evaluate the late effects of VATS lobectomy on survival and quality of life when compared with axillary thoracotomy. 3. To establish the normative pattern of VATS lobectomy for early-stage non-small cell lung cancer. 4. To explore the indication of VATS lobectomy for the lung cancer.