Active clinical trials for "Carcinoma, Non-Small-Cell Lung"

This Study evaluate the effect of Polymorphism in the Excision repair cross-complementing group 5 (ERCC5) (rs1047768 and rs751402) gene on the clinical outcome of Platinum-based regimens used in the treatment of Non-Small Cell Lung Cancer (NSCLC) patients

To reveal changes of peripheral markers and blood perfusion parameters in vivo tumor in the study of QL1101 and Avastin® in patients with Non-squamous Non-small Cell Lung Cancer

This is a real-world non-interventional observational study. The study was designed to evaluate the effectiveness and safety of clinical treatments in the patients with advanced non-small cell lung cancer (NSCLC) complicated with brain metastases in clinical practice.

Non-small cell lung cancer (NSCLC) accounts for more than two-thirds of lung cancer, which is the leading cause of cancer deaths in Taiwan. The overall prognosis of NSCLC is poor with low 5-year survival rates. Recent advances suggest that malignancy NSCLC cancers are the cancer stem cell (CSC) diseases. The stemness potentials of CSC with epithelial-mesenchymal transdifferentiation ensure their invasion and disseminate to metastsis organs. The self-renewal property of CSC mediates intrinsic drug resistance to cytotoxicity therapy and promoted aggressive relapse tumour. Metabolic reprogramming on bioenergetics of malignant cancer cells has been proposed as the key mediator in the stemness CSC development. Malignancy cells uptake glucose for fermented glycolysis to produce lactate which release resulted in acidified microenvironment to trigger the mTOR and sonic hedgehog metabolic stress signaling in supporting CSC stemness potentials. The metabostemness of cancer cells is the new-dimensional hallmark of malignancy tumour, which may serve as the diagnostic markers for the early detection of malignancy cancers. Folate-mediated one carbon metabolism coordinates glucose into amino acid metabolism to tailor the fuel metabolites in supporting macromolecule synthesis and to sustain the bioenergetics requirement. Acting as the metabolic stressor, low folate intake is associated with increased risks of lung cancers. Folate and one-carbon nutrient status of NSCLC patients in Taiwan, however, has not been assessed. The role of low folate metabolic stress (LFMS) in metabostemness marker and metastasis potentials of malignancy NSCLC is unexplored. The causal effect and the working mechanisms by which LFMS promoted NSCLC malignancy remain elusive.

The purpose of this study is to compare early-stage peripheral non-small cell lung cancer lobectomy and sub-lobectomy surgery to evaluate if sub-lobectomy is as feasible and effective for the treatment of early-stage (diameter ≤2cm) peripheral non-small cell lung cancer as lobectomy.

This study investigates peropeative nodal upstaging during anatomical resections for non-small-cell-lung-cancer in an era of rising numbers of VATS anatomical resections. In case of comparable study groups, unchanged pretreatment staging and equal quality of pathologic examination, lymph node upstaging is a marker of surgical quality and can be used to study the quality of a new surgical technique.

This is a phase IV multicenter trial to evaluate the mechanisms of resistance and pharmacoeconomic (PE) impact of crizotinib and its companion diagnostic test used in a real-life setting in advanced ALK-positive non-small cell lung cancer (NSCLC) patients. The study will address two anticipated issues surrounding personalized medicine and treatment with crizotinib: it will enable real-life Heath Economics and Outcome Research (HEOR) it will validate and/or identify new blood-based or tissue-based biomarkers of resistance to crizotinib. At least 30 patients will be recruited in Quebec and Ontario for the PE study. Patients will be asked to complete quality-of-life questionnaires at regular intervals in a real-life setting of treatment with crizotinib. Approximately 25 patients will be recruited to the biomarker sub-study in Quebec to understand resistance mechanisms of crizotinib. In these patients, a biopsy from any accessible metastatic lesion will be obtained when the patient is no longer responding to treatment, as well as blood sampling during regular treatment visits.

The studied materials contains surgically specimens of two groups of patiens with non-small cell lung cancer who have received two regimens of induction (neoadjuvant) chemotherapy before tumor resection. Pathological specimens of pre-chemotherapy and post-chemotherapy whatever retrievable will be collected. The protein ad RNA expression of DNA repair genes (ERCC1, ERCC2, XRCC1, XRCC3, BRCA1 and RRM1) as well as DNA polymorphisms of these genes will be studied, and will be correlate with the treatment response and outcome of the patients. The aims of this study include: To identify the expression status of the above DNA repair genes in Taiwanese NSCLC patients. To correlate the expression, as well as DNA polymorphism of each DNA repair gene in treatment response to two differenct chemotherapeutic regimens. To correlate the expression, as well as DNA polymorphism of each DNA repair gene in the outcome of stage III NSCLC patients. To explore whether platinum based chemotherapy will change the expression status of DNA repair gene and if indeed changed, whether this would influence the outcome of the patients

To establish a retrospective compilation of clinical, histopathological, treatment and follow-up (clinic pathological) data of previous non-small cell lung cancer (NSCLC) cases. To establish a prospective collection of clinic pathological information from NSCLC patients with corresponding blood and tissue samples To discover and validate molecular biomarkers of survival and treatment outcome in NSCLC One of the current difficulties in the management of lung cancer is the decision to treat and the type of treatment to select. Thus there is a need for additional prognostic (indicative of disease aggressiveness) and predictive (indicative of likely response to treatment) markers for lung cancer. To conduct a successful prognostic and predictive marker program, several factors are required, including: a comprehensive database linking clinical, histopathological, treatment and outcome characteristics of each case, a collection of samples linked to the database that is suitable for the testing of candidate markers, and a multi-disciplinary, interdepartmental level of expertise in the management of lung cancer. Objective 1: A review of the case records will be conducted to extract clinical, treatment and follow-up data Objective 2: Patients aged 21 years or more with newly diagnosed, untreated non-small cell lung cancer shall be approached for consent. Patients will be identified through the pathology records, and from the study investigators' clinic. After subject consent, baseline characteristics will be obtained. Follow up data on therapies received and toxicities encountered will be obtained. Tumor samples will be obtained only from patients with NSCLC undergoing surgery as part of routine clinical care. The surgical specimen will be sent to Pathology to verify the adequacy of the diagnostic sample as per usual practice. Blood will be collected at the baseline (or prior to any anti-cancer treatment) and will be sampled again at the time of relapse or disease progression. Collection will entail drawing 7ml blood into a Vacutainer CPT tube (Becton Dickinson, USA), centrifugation, extraction of a separated layer of mononuclear cells (MNC), labeling followed by storage below -80oC. The frequency of blood drawn will be about 1-5 times (7-35mls total). The number of times depends on whether the lung cancer relapses and in the advanced stage, how often the lung cancer relapses after treatment. DNA and RNA will be extracted by CSIS and stored in freezer space there. Stored samples will be used for investigation of prognostic and predictive markers of outcome and for discovery of novel molecular alterations Objective 3: Biomarker analysis of tumor and blood. Blood will be enriched for circulating tumor cells (CTC) using previously optimized methods (11) and DNA will be extracted from CTC and tumor using the Tri-Reagent (Molecular Research Center, Cincinatti, OH). DNA will be extracted from tumor, CTC and mononucleated cells and tested for somatic lung mutations by sequencing (2). Germline DNA will be analysed for genes linked to genetic risk for NSCLC and, for treatment toxicities, for genes related to NSCLC chemotherapy metabolic pathways. Tissue microarray (TMA) is a high-throughput method of analysing large numbers of formalin-fixed, paraffin-embedded tumor at a minimal cost and effort. To analyse the expression of proteins of putative relevance to EGFR function, cell proliferation, angiogenesis, apoptosis, metastasis, and hormonal, TMA will be utilised. PTEN and C/EBPa will also be analysed.

Promising new technology exists to examine small proteins that are shed by cancers into the blood stream. The purpose of this study is to see if there are differences in the proteins and protein levels in blood from individuals with early stage lung cancer compared to healthy adults.