View clinical trials related to Lung Neoplasms.
Filter by:Administration of preoperative oral carbohydrates are suggested to reduce insulin resistance due to surgical stress. The aim of this study is to investigate whether preoperative oral carbohydrate loading can contribute to lower incidence of postoperative discomfort and to reduce complications in elective lung cancer patients undergoing video assisted thorascopic surgery (VATS).
The subject is to study the lung microbiota and the one of upper airways (UAs) (much less studied than the intestinal microbiota) in 40 patients having lung cancer. 20 patients undergo only surgical treatment, while other half receives also chemotherapy. The idea is to explore changes in microbiota of the lung, upper UAs and intestine, and potentially find associations between them. These results will serve us as a base for the future study, focused on manipulation of the microbiota by prebiotics, probiotics or symbiotics and its effect on anti-cancer treatment tolerance and effectiveness.
A single-center, open-label pilot study to determine the safety, tolerance and engraftment potential of zeushield cytotoxic T lymphocytes in subjects with PD-L1+ positive non-small cell lung cancer.
It is a study that hypothesize that MR/PET can have better information than current CT image study, about the medical or surgical treatment outcome of lung cancer
Epidermal growth factor receptor tyrosine kinase inhibitors (EGFR-TKIs), including gefitinib demonstrate excellent effect on the treatment of non-small cell lung cancer (NSCLC) patients with EGFR mutations. However, patients who are initially sensitive to the drugs eventually become resistance. Apatinib is a highly selective VEGFR2 inhibitor and reduces the angiogenesis of tumor efficiently. In this study, the investigators aim to explore the efficacy and reasonable dosage of apatinib combining with EGFR-TKI in advanced non-squamous non-small cell lung cancer with EGFR-TKI resistance.
This is a prospective single arme real-world study clinical study, which aims to investigate the overall benefit and safety of consolidative therapy in advanced NSCLC (stage III/IV) patients , who do not progress after front line systemic therapy (chemotherapy, target therapy or immunological checkpoint inhibitors).
A comparison of baseline tumor characteristics in oncogene-driven cancers to tumor characteristics after early response to Tyrosine Kinase Inhibitor (TKI) targeted treatment will allow identification of early adaptive mechanisms of cell survival. This will facilitate targeting and termination of these survival/ resistance pathways before they develop with rational combinations of therapeutic agents to improve outcomes.
Metastatic (HR-positive, HER2-negative) breast cancer (BC), advanced or unresectable neuroendocrine tumours of pancreatic (pNET), gastrointestinal or lung origin and metastatic renal cell carcinoma (mRCC) are diseases with poor outcome. Everolimus increases patients' median progression-free survival (PFS) with 4.6 months in metastatic BC (mBC), 7 months in (p)NET and 3 months in mRCC. However, serious adverse events (AEs) occur frequently. This reduces effectiveness of everolimus, because AEs are managed with dose reductions, treatment interruptions or even complete discontinuation of everolimus. Therapeutic-drug-monitoring (TDM) is used to adjust the prescribed daily dose, to maintain effective everolimus whole blood concentrations, with the lowest possible risk of AEs. While everolimus TDM has been common in transplantation medicine, it has not been implemented in oncology. The importance of TDM in oncology is supported by previous research which showed that a 2-fold increased everolimus whole blood trough concentration was associated with a short-term risk of grade ≥ 3 pneumonitis, stomatitis and metabolic events. Moreover, an exposure-toxicity relationship of everolimus in patients with thyroid cancer was observed, since initial everolimus concentrations could be associated with early toxicity (< 12 weeks, e.g. stomatitis). However, the association between initial everolimus measurements and long-term AEs (≥12 weeks, e.g. pneumonitis, anorexia and anemia) of any grade and the need for everolimus dose reductions could not be made. Since levels ±>18 µg/L were associated with toxicity, the investigators assume that the upper therapeutic window of everolimus in the oncologic setting will be ±18 µg/L. Similarly, a tendency to improved PFS and overall survival was observed when Cmin in steady state was above 14.1 μg/L. This seems to be the lower limit of the therapeutic window. Before consensus about the feasibility of everolimus TDM in the oncologic setting can be achieved, a number of questions (the knowledge gaps) need to be answered: 1. It is unknown whether everolimus whole blood trough levels (over time) predict long-term AEs. 2. The optimal concentration range for everolimus, with the treatment of mBC, mRCC, or (p)NET is unknown, especially the upper limit associated with toxicity. 3. It is unknown what everolimus concentration level is associated with the need for everolimus dose reductions.
Investigators use a genome-wide approach within a case-control design to identify SNPs that show evidence of association with lung cancer risk and survival.
This randomized controlled trial will evaluate the effect of a preoperative rehabilitation program at home in patients resected for lung cancer, comparing a control group (C group) receiving only chest physiotherapy and a rehabilitation group (R group) receiving both a training program at home and chest physiotherapy