View clinical trials related to Lung Neoplasms.
Filter by:In this feasibility study, a zirconium-89 (89Zr)-avelumab positron emission tomography (PET) scan will be performed in 37 patients prior to treatment with avelumab to: 1. assess the tumor and systemic tissue uptake 89Zr-avelumab 2. assess the potential to predict avelumab treatment response
This study is a prospective, single-arm, multi-center, pilot trial of Bronchoscopic Thermal Vapor Ablation for Lung Cancer (BTVA-C) in patients with primary lung cancer or metastatic cancer in the lung. Patients who have consented to participate in this study (enrolled) will be subject to eligibility screening and baseline assessments, prior to undergoing the BTVA-C procedure. Only patients that meet all of the inclusion criteria and none of the exclusion criteria will receive vapor ablation treatment. Patients will be followed for up to 12 months.
The study aims include: - Exploring potential predictive molecular profiles to immunotherapy/chemotherapy - Investigating the role of circulating tumor DNA as a dynamic biomarker during immunotherapy/chemotherapy - Identifying possible resistance mechanisms to immunotherapy/chemotherapy Materials and methods: Approximately 150 patients diagnosed with metastatic NSCLC assigned for immunotherapy or chemotherapy will be candidates for inclusion during a 1-2 years period. A comprehensive molecular profiling will be made from the diagnostic biopsy. Before every treatment-cycle a blood sample will be taken to quantify ctDNA. At time of progressive disease during/after first line treatment, patients will be asked to participate in a new biopsy and a comprehensive molecular profiling will be performed. The tissue and blood samples collected will be stored in a biobank. Clinical data will be collected to perform a comprehensive database. Analysis: Potentially predictive molecular profiles for immunotherapy/chemotherapy will be found by comparison of treatment outcome for patients with specific molecular characteristics. Through quantification of ctDNA during treatment and upon progression, the role of ctDNA as a dynamic biomarker will be further strengthened. Differences in molecular profiles pre- and post-treatment may reveal resistance mechanisms to treatment. Molecular profiling on progression can be valuable in second-line treatment guidance.
Self-management interventions can help patients and their families care for themselves along the cancer care continuum. This scenario has witnessed the rapid and ongoing growth in mobile technologies, including mobile health (mHealth). LuCApp (Lung Cancer App) is an application developed by researchers and lung cancer clinicians to gather symptom data in real time and to share it with healthcare professionals. This is a 24-week, two-arm, non-blinded multicenter feasibility parallel randomized controlled trial aimed to evaluate the usability and effectiveness of LuCApp vs standard care to improve self-management of symptoms and health related quality of life in lung cancer patients.
Nivolumab is superior to docetaxel monotherapy as second line treatment in advanced stage non-small cell lung cancer (NSCLC) patients. However, the long term survival advantage seems to be limited to a 20% proportion of treated patients. To date, no definitive biomarker, including tumor cells or infiltrative cells PD-L1 expression, has been demonstrated to predict nivolumab (or other PD1 or PD-L1 inhibitors) efficacy. Ipilimumab has also suggested efficacy in the same patient population. Finally, the addition of ipilimumab to nivolumab has a suggested better efficacy over nivolumab alone in advanced stage NSCLC patients with an acceptable safety profile. In parallel, hypo-fractionated radiotherapy alone has been suggested to elicit the immune system activity as demonstrated by the occurrence of an abscopal effect. Some case reports in melanoma but also lung cancer patients reinforced this hypothesis. Furthermore, preclinical and clinical data suggest that radiation may have a synergistic effect with antibodies targeting the immune checkpoints (PD1, PD-L1, CTLA4) and improve antitumor efficacy. Moreover, it has been shown that fractionated radiotherapy delivered in combination with aPD-1 or aPD-L1 mAbs is able to generate efficacious CD8þ T-cell responses that will in turn improve local tumor control, long-term survival, and protection against tumor rechallenge. Therefore, the combination of single fraction or hypo-fractionated radiotherapy with the anti PD1 nivolumab and/or the anti CTLA4 ipilimumab warrants further investigation. However, a large number of doses, sequences and schedules remain possible. In order to select the best combination, a mathematical modeling of immunotherapy in cancer and its synergy with radiotherapy has been set up. This work provides with mathematical formulas to link the drug serum concentrations of nivolumab and ipilimumab, and the dose of radiation therapy, to the immune response. In silico, the single and three fractions schedule have been found to have the same efficacy while activation of the immune response seems to be better using a hypo-fractionated (less than 6 fractions) radiotherapy in vivo.
The primary objective of this trial is to evaluate the efficacy of trastuzumab deruxtecan in HER2-overexpressing and/or HER2-mutated advanced NSCLC participants.
The purpose of the study is to document real-world pattern of care, outcomes and health resource use for participants diagnosed with and receiving treatment for advanced Non-small cell lung cancer (NSCLC) and extensive disease Small cell lung cancer (SCLC) in China.
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.
This trial is a phase 1/1b study to evaluate the safety, efficacy, and tolerability of APX005M in combination with nivolumab and cabiralizumab. The phase 1 dose escalation portion of the study will enroll patients with advanced solid tumors melanoma, non-small cell lung cancer (NSCLC), and renal cell carcinoma (RCC) in 6 cohorts to determine the recommended phase II dose (RP2D) of APX005M. The phase 1b dose expansion portion will study the triple drug combination separately in the three disease cohorts: melanoma, NSCLC, and RCC.
This is a phase II Randomized comparison clinical trial of activated CIK armed with anti-CD3-MUC1 bispecific antibody for advanced lung cancer. And the aim of this research is to study the clinical efficacy and safety of activated CIK armed with anti-CD3-MUC1 bispecific antibody for lung cancer.