View clinical trials related to Lung Cancer Metastatic.
Filter by:This research aims to develop an innovative photodynamic therapy (PDT) for peripheral lung tumors. Current treatments involve surgery, chemotherapy, and radiation. Photodynamic therapy, using light and photosensitizing drugs, is promising but has limitations. Our team proposes using Lipiodol, a contrast agent, instilled into the trachea via bronchoscopy, surrounding the tumor. Preliminary pig model trials showed safety. Clinical trials, building on a U.S. study (NCT02916745), commenced in October 2021, treating three cases. Initial results suggest safety, but efficacy requires further investigation. Based on ongoing trials, we propose a phase I trial with multiple light treatments from different directions and an additional dose after 48 hours to assess safety and efficacy. This study will guide future clinical trials for optimal PDT dosage.
The Sponsor is developing KB707, a replication-defective, non-integrating herpes simplex virus type 1 (HSV-1)-derived vector that is designed to stimulate an anti-tumor immune response through the production of cytokines delivered to the airways of people with advanced solid tumor malignancies affecting the lungs via nebulization. This Phase 1, open-label, multicenter, dose escalation and expansion study is designed to evaluate the safety and tolerability of KB707 in adults with with advanced solid tumor malignancies affecting the lungs who have progressed on standard of care therapy, cannot tolerate standard of care therapy, or refused standard of care therapy. The study will include a dose escalation portion for single agent KB707 using a standard 3+3 design followed by an expansion portion to further evaluate single agent KB707 at a dose determined by preliminary data in the dose escalation phase. Subjects in both the dose escalation and dose expansion cohorts will receive KB707 via nebulization weekly for three weeks, then every three weeks for up to two years until tumor progression, death, unacceptable toxicity, symptomatic deterioration, achievement of maximal response, subject choice, Investigator decision to discontinue treatment, or the Sponsor determines to terminate the study.
The investigators conduct this prospective study and wish to elucidate the association of serial change of body composition, serum adipo-myokines and adverse effect of chemotherapy and lung cancer prognosis
SLC-391 is a novel, potent and specific small molecule inhibitor of receptor tyrosine kinase AXL with desirable potency and pharmaceutical properties. The study is being done to evaluate the safety and pharmacokinetic (PK) profile of SLC-391 in combination with pembrolizumab in participants with non-small cell lung cancer (NSCLC). Each treatment cycle lasts 21 days. Participants will swallow SLC-391 pills two times every day. Participants will get pembrolizumab intravenously (IV) from the study site staff on the first day of every cycle. This study has 2 parts. The first part will determine the recommended dose of SLC-391 in combination with pembrolizumab. The second part wants to find out if the combination of SLC-391 and pembrolizumab can help stop NSCLC tumours from growing or spreading.
Despite the availability of highly effective endoscopy-based and computed tomography (CT)-based biopsy procedures, up to 50% of patients with advanced lung cancer potentially eligible for targeted therapies or immunotherapy do not have access to a diagnosis or to a thorough molecular profiling for different reasons. Enlarged and/or positron emission tomography (PET) positive cervical/supraclavicular lymph nodes (CSLs) are ideal targets for a minimally invasive diagnosis of lung cancer through a percutaneous ultrasound-guided biopsy (US-NAB). However, the prevalence of metastatic involvement of CSLs in patients with advanced lung cancer was never specifically assessed. Furthermore, the possible association of malignant CSLs involvement with molecular status was never investigated, unlike what was done for several other metastatic sites.
I3LUNG is an international project aiming to develop a medical device to predict immunotherapy efficacy for NSCLC patients using the integration of multisource data (real word and multi-omics data). This objective will be reached through a retrospective - setting up a transnational platform of available data from 2000 patients - and a prospective - multi-omics prospective data collection in 200 NSCLS patients - study phase. The retrospective cohort will be used to perform a preliminary knowledge extraction phase and to build a retrospective predictive model for IO (R-Model), that will be used in the prospective study phase to create a first version of the PDSS tool, an AI-based tool to provide an easy and ready-to-use access to predictive models, increasing care appropriateness, reducing the negative impacts of prolonged and toxic treatments on wellbeing and healthcare costs. The prospective part of the project includes the collection and the analysis of multi-OMICs data from a multicentric prospective cohort of about 200 patients. This cohort will be used to validate the results obtained from the retrospective model through the creation of a new model (P-Model), which will be used to create the final PDSS tool.
This study investigates fluorine-18-AlphaVBeta6-BP ([18F]-αvβ6-BP) as a Positron Emission (PET) imaging agent in Non-Small Cell Lung Cancer (NSCLC) patients with brain metastases. Investigators hypothesize that [18F]-αvβ6-BP PET/Computed Tomography (CT) is a sensitive tool for disease assessment in patients with metastatic NSCLC, including those with brain metastases.
The purpose of the study is to see if stereotactic radiosurgery/SRS is an effective treatment for people with a new diagnosis of brain metastases from small cell lung cancer/SCLC.
This is a research study to find out the safety and tolerability of combining the drug evolucumab with standard immunotherapy in people with advanced lung cancer (a type called non-small cell lung cancer). Nivolumab (Opdivo™) and ipilimumab (Yervoy™) are immunotherapy-type drugs which are approved for the treatment of advanced lung cancer that has expression of PD-L1 greater than or equal to 1%. Evolucumab is being combined with nivolumab and ipilimumab to see if it will improve the anti-tumor capabilities of the immunotherapy. Adding evolocumab to the combination of nivolumab and ipilimumab has not been tested in people before and is considered investigational.
Immunotherapy (IO), such as treatment with anti-PD-1, PD-L1, or CTLA-4 inhibitors, is a rapidly expanding treatment for multiple metastatic cancers with improved survival for certain cancers. However, the optimal duration of immunotherapies is currently unknown. Our hypothesis is that a reduced dose intensity of IO could be as effective as the current standard treatment in term of prevention of the disease progression. If proved right, this study will have a positive medico-economic impact by reduction of the costs associated with the treatment and the toxicity, and an increase of the patients' quality of life.