View clinical trials related to Carcinoma, Non-Small-Cell Lung.
Filter by:To explore the effectiveness and safety of Camrelizumab based cross-line therapy for patients with advanced NSCLC in the real world
This study aims to describe the treatment patterns in clinical practice in adult patients with mNSCLC with a BRAF V600E mutation. This study will also describe Real-World Progression-Free Survival (rwPFS) and Overall Survival (OS) for treatments prescribed in routine practice for mNSCLC with BRAF V600E mutation. Adverse events (AEs) related to treatment management will also be described.
This is an open-label, multi-centre, single-arm study assessing the efficacy and safety of osimertinib as adjuvant treatment in stage IB-IIIB (8th AJCC) NSCLC with uncommon EGFRm after receiving complete surgical resection with or without adjuvant chemotherapy.
The purpose of this study is to characterize the safety and tolerability of KFA115 and KFA115 in combination with pembrolizumab in patients with select advanced cancers, and to identify the maximum tolerated dose and/or recommended dose.
The purpose of this study is to evaluate BMS-986442 in combination with nivolumab (with or without chemotherapy) for its antitumor efficacy and benefit to participants.
This is a multi-centre, prospective, translational study investigating the use of plasma genotyping for initial genomic testing in newly diagnosed advanced/locally advanced non-squamous NSCLC. In this study, patients will have a plasma genotyping assay completed following confirmation of suspected diagnosis of non-squamous NSCLC at institutional Rapid Access Lung Cancer Clinics (RALCC), alongside standard tissue-based biopsy and genotyping.
Lung cancer is currently the leading cause of cancer-related mortality worldwide, and the dominant histopathology is non-small cell lung cancer (NSCLC). Although many new targeted and immunomodulation therapies have emerged, not all patients are responsive to novel therapeutics. A more reliable and accurate risk stratification model to predict the treatment response and survival outcomes are still lacking. The 18F-fluorodeoxyglucose (18F-FDG) positron emission tomography (PET) derived radiomics can be used to interrogate tumor biologies such as glycolytic activity and heterogeneity. It can, therefore, be used to predict treatment response and survival outcomes. Cancer genomics derived from gene sequencing can evaluate cancer's genetic alterations. It can be used to feature the genotype of the tumor. However, both tools have drawbacks; combining these two modalities may enable a more robust predictive model for more precise clinical decisions. During the investigator's former study project, the investigators published four Science Citation Index journal papers using the investigators' research results, which found that 18F-FDG PET radiomics can independently predict regional lymph node metastasis in NSCLC and cancer survival by stage. The preliminary findings of the investigator's former research project also disclosed an association between 18F-FDG PET-derived molecular radiomics with genomic heterogeneity and mutation of specific glucose metabolic genes. This time, the investigators plan to include deep radiomics in addition to traditional handcrafted radiomics. The investigators aim to investigate the radiogenomic patterns in different driver gene mutation statuses and clinical scenarios. Finally, the investigators seek to use radiogenomics as a prognostic stratification tool in patients with NSCLC.
This is a Phase 1 dose-escalation study of PRT3645, a Cyclin-dependent Kinase 4/6 (CDK4/6) inhibitor, in patients with advanced or metastatic solid tumors. The purpose of this study is to investigate the safety, tolerability, dose limiting toxicity, and to determine maximally tolerated dose and recommended phase 2 dose to be used in subsequent development of PRT3645.
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.
The primary objective is to describe eosinophil infiltration in resected (early stage) NSCLC. Secondary objectives are: - to investigate the correlation of T-Eos and B-Eos in the aforementioned patient population; - to investigate the correlation between T-Eos and overall & disease-free survival; - to investigate the localization of T-Eos (periphery vs. center of the tumor lesions).