View clinical trials related to Lung Cancer.
Filter by:A Phase 1 dose escalation study in patients with advanced solid tumors harboring KRAS G12C mutation to determine the maximum tolerated dose and recommended Phase II dose of HBI-2438 and characterize its pharmacokinetic profile.
In patients with oligometastatic (1-5 lesions) extensive-stage small cell lung cancer, to explore the efficacy and safety of Durvalumab immunotherapy combined with chemotherapy followed by consolidation radiotherapy, to provide scientific basis for the formulation of the best comprehensive treatment plan in the future.
This is a phase I clinical trial to determine the maximum tolerated dose (MTD) of KK-LC-1 TCR-T cells for the treatment of metastatic cancers that express KK-LC-1. Participants will receive a conditioning regimen, KK-LC-1 TCR-T cells, and aldesleukin. The safety profile and clinical response to treatment will be determined.
contextflow DETECT Lung CT is a Artificial Intelligence (AI)-based computed-aided detection (CADe) system, intended to support radiologists in the detection of lung nodules in chest computed tomography (CT) scans. System is intended to be used as a second-reader, therefore results provided by the software are meant to complement the radiologist's findings and decisions. Proposed study will be multi-reader, multi case (MRMC) retrospective reader study. The goal of the study is to evaluate the influence of CADe on the effectiveness of lung nodule detection. During the study, 10 radiologists will analyze 350 chest CT scans of adult patients, with and without the assistance of CADe. The study will be conducted remotely. CT scans will be uploaded to a web-based image submission and annotation platform, in which every participant of the study will be provided with individual account and assigned task list. The primary objective of the study determine if the diagnostic accuracy of radiologists with CADe assistance is superior to the diagnostic accuracy of radiologists without CADe assistance in localizing the pulmonary nodules with enhanced area under the free-response operating characteristic curve (AUC of FROC). The study will target approximately 350 asymptomatic adult patients, whose CT scans were acquired during routine CT examination. The patient population will include patients with and without lung nodules.
The aim of this study is to evaluate whether preoperative CT- guided hookwire localization would influence the incidence and intensity of acute and chronic pain after VATS.
This is the prospective, observational cohort study (STRESS-LUNG) to explore the associations of psychological stress with progression, efficacy of immune checkpoint inhibitors (ICIs) and prognosis of Lung Cancer. The participants including the patients diagnosed with advanced non-small-cell lung cancer (NSCLC) who received the first-line therapy or neoadjuvant therapy of ICIs; patients diagnosed with advanced small-cell lung cancer (SCLC) receiving the first-line therapy ICIs; patients diagnosed with early small-cell lung cancer (SCLC) receiving surgery.
Recombinant humanized monoclonal antibody injection against human vascular endothelial growth factor (bevacizumab) is Avastin produced by Zhengda Tianqing Pharmaceutical Group Co., Ltd Biological similar drugs. Its mechanism is to prevent VEGF from binding to its natural receptor VEGFR, inhibit the proliferation and activation of vascular endothelial cells, and play an anti angiogenesis and anti-tumor role by binding with VEGF. A randomized, double-blind, single dose, parallel comparison of bevacizumab injection and Avastin is planned The phase I clinical study on the similarity of pharmacokinetics and safety of traditional Chinese medicine in healthy male volunteers aims to compare bevacizumab injection with Avastin The similarity of pharmacokinetics, tolerance, safety and immunogenicity.
A variety of in vivo experimental models have been established for the studies of human cancer using both cancer cell lines and patient-derived xenografts (PDXs). In order to meet the aspiration of precision medicine, the in vivo murine models have been widely adopted. However, common constraints such as high cost, long duration of experiments, and low engraftment efficiency remained to be resolved. The chick embryo chorioallantoic membrane (CAM) is an alternative model to overcome some of these limitations. The chick CAM is shown to be a robust model for both the inoculation of cell lines and grafting of patient tumors for drug therapy evaluations and target genes/pathways analysis. The start-up INOVOTION has developed a unique, highly sensitive and reproducible CAM assay to graft human cancer cells/tumors in the chicken egg environment. INOVOTION's technology was validated for over 55 human tumor cell lines, including carcinomas, gliomas and melanomas, as well as over 30 reference drugs currently on the market. At INOVOTION, the graft of human cancer cells on the chicken CAM is currently conducted manually. To scale-up, the process was recently automated. The automation performance was assessed on cancer cells lines. The objective of this study is to demonstrate that the automation of the INOVOTION process enables tumors' proliferation using patient samples (from tumor samples or circulating tumor cells) as grafting material.
The hypothesis of this study is that an occlusion balloon catheter placed in the stomach via an oral or nasogastric route will be safe and permit tracking of the stomach during radiation therapy.
Indeterminate lung nodules (6-15mm) are frequent findings in patients undergoing chest CT scanning, but adequate follow-up imaging is currently not in place to facilitate early detection, diagnosis and decision making regarding treatment. The introduction of long Field-Of-View PET/CT scanners could make a difference in this matter due to the substantial increase in sensitivity allowing optimal image quality. Whether this new technology could provide improved detection and follow-up of indeterminate lung nodules is what we aim to explore in this study.