View clinical trials related to Lung Cancer.
Filter by:This translational study aims to investigate how neoadjuvant therapy affects lung cancer patients by monitoring dynamic changes in the tumor environment. The study focuses on patients with histologically confirmed lung cancer, including non-small cell lung cancer (NSCLC) and small cell lung cancer (SCLC), who are eligible for neoadjuvant therapy in the LungMate clinical trial series. By analyzing intra-tumour genetic and functional heterogeneity following neoadjuvant therapy through multi-omic analysis (including genomics, transcriptomics, metabolomics and proteomics), this study could potentially identify new biomarkers or therapeutic targets that could improve lung cancer patient outcomes.
Background: The lung is a privileged organ; blood does not reflect most lung processes well, if at all. Therefore, for population scale diagnostics, the investigator team is developing non-invasive portals to the lung, for eventual early detection/risk assessment and diagnostic purposes. However, large macromolecules are not likely suspended nor readily detected in the breath. In particular, genomic DNA in the breath condensate (EBC) is very sparse, and where present, generally highly fragmented, not readily amenable to sequencing based assessments of DNA somatic mutation burden or distribution. Because gDNA (and protein) is challenging to obtain non-invasively from EBC, the study team considered alternative surrogate lower airway specimens. Cough capture is rarely done, and the investigator team is in the process of optimizing its collection. Importantly, the team will be evaluating how much of coughed material is from saliva contamination. Additionally, analyzing material that is target captured by capturing deep lung extracellular vesicles (EVs) using immobilized CCSP/SFTPC antibodies targeting EVs from distal bronchiole Club and alveolar type 2 cells could circumvent the mouth contamination problem, leaving a non-invasive portal to the deep lung suitable for large molecules, and in turn suitable for myriad epidemiologic and clinical applications. Proposal: The investigator team proposes (Aim 1) to pursue optimizing cough collection, and testing the efficacy and practicality of partitioning cough specimen for deep-lung specific extra-cellular vesicles (EVs). This cough specimen will be compared to that from invasively collected deep lung samples BAL/bronchial brushings, and to the potential contaminating mouthrinse, all from the same individuals. (Aim 2) The study team initially proposes to examine these cough specimens for somatic mutations by SMM bulk sequencing for single nucleotide variation, developed in the Vijg/Maslov labs. Finally, the investigator team will (Aim 3) test all airway specimens (cough, mouthwash and BAL) for lung surrogacy of cough, using proteins known to be specific for lung, as opposed to oral cavity/saliva, in the Sidoli/proteomics core. Impact: The investigator team envisions that the translational impact of non-invasively obtained DNA or protein markers could allow for more rapid acute clinical diagnoses, and facilitate precision prevention and/or early detection of many acute and chronic respiratory disorders, including lung cancer, asthma and COPD, acute and chronic infectious diseases, and indeed systemic disorders of inflammation and metabolism.
LUCENT is an observational study focused on malignant pulmonary and tracheo-bronchial disease. It involves a large proportion of reference Italian thoracic surgery centers. The relevance of the study is related to the epidemiology of lung cancer in the world - also known as "Big Killer" - and the high mortality rates both in males and females. The aim of his prospective study is to collect a large bulk of postoperative patients' outcome data and to produce up-to-date descriptive statistics of patients undergoing surgery for lung cancer. These results will be pivotal to compare the clinical results of all the relevant specialities involved in the care of lung cancer such as medical oncologists and radiation oncologists.
This is a two arm RCT evaluating the effect of intravenous vitamin C versus placebo in patients with incurable non-small cell lung cancer. Participants in both arms will be receiving platinum doublet chemotherapy with or without concurrent immunotherapy as standard care. We plan to enroll 90 patients over 5 years.
To find a recommended dose of the combination of adagrasib and durvalumab that can be given to patients with cancers that have a KRAS G12C mutation.
Although non-small cell lung cancer (NSCLC) patients with anaplastic lymphoma kinase (ALK), c-ros oncogene 1(ROS1), and ret proto-oncogene (RET) gene fusions initially respond well to tyrosine kinase inhibitor (TKI) therapies, acquired resistance is inevitable. In many of these cases, increased activation of the erythroblastic leukemia viral oncogene homologue (ERBB) or cMet pathways appears to be a bypass signaling mechanism that allows these cancer cells to circumvent the selective pressure from TKIs. Recent data have suggested that these pathways compensate for each other in situations where one pathway is inhibited, leading to "kinase switch" drug resistance. Thus, the expected inhibition of both pathways via treatment with the amivantamab and combination TKI combination may improve overall efficacy by limiting the compensatory pathway activation.
This study examines the feasibility and acceptability of a virtual tumor board for cancer and mental illness for patients with serious mental illness and a new cancer diagnosis. The study also examines the impact on patient care, psychiatric symptoms, and clinician self-efficacy in managing this population.
Patients included in the study will be randomly divided into 2 groups using appropriate randomization programs. All patients will be given exercise training individually for 24 sessions using a bicycle ergometer under the supervision of a physiotherapist.Patients in the first group will be given exercise training on a bicycle ergometer for 5 minutes warm-up phase at 40% of maximal oxygen consumption (VO2max), 20 minutes exercise phase at 60% of VO2max and 5 minutes cool down phase at 40% of VO2max for a total of 30 minutes. Patients in the second group will be given a warm-up phase for 3 minutes at 50% VO2max, 1 minute at 80-100% VO2max and 1 minute at 50% VO2max in 10 cycles, and finally a cool-down phase for 3 minutes at 50% VO2max. In total, 25 minutes of low-volume high-intensity intermittent exercise training will be given on a bicycle ergometer.
This project adopts a prospective, multicenter, randomized controlled clinical study to investigate the treatment of TCM in postoperative patients with driver gene negative lung cancer, according to two phases of postoperative adjuvant therapy: (i) chemotherapy phase immunotherapy phase. In this study, 367 patients (183 in the control group and 184 in the trial group) will be observed over 4 years, and the quality of life, toxic effects and safety of this therapy will be investigated. This study will provide evidence-based evidence for the establishment and optimization of a new model of postoperative staged TCM with adjuvant chemo-immunotherapy for lung cancer.
This study is about home air radon testing and has two phases. The goal of the first phase is to learn about renters' and homeowners' views and plans related to radon testing. The main question this phase aims to answer is: 1. Does taking part in a focus group with information about radon testing change people's plans to test for radon? Participants in the first study phase will: - Take a survey about their views on and plans for radon testing. - Take part in a focus group discussion about radon testing, during which they will receive information about radon testing. - Right after the focus group, take a survey about their plans for radon testing. The second phase is a pilot interventional study. The goal is to test interventions about radon testing with renters and homeowners who smoke and do not smoke. The main questions this phase aims to answer are: 1. Does the recruitment strategy result in enough participants enrolling within 3 months? 2. Will at least 80% of participants complete data collection activities? 3. Will more participants who view an online intervention developed by the researchers request free radon test kits, set them up in their homes, and complete radon testing, compared to participants who view a standard public health infographic? And will even more participants who receive reminder messages, in addition to the online intervention, request free radon test kits, set them up in their homes, and complete radon testing? Participants in this second phase will: - Take a survey about their views on and plans for radon testing. - View an intervention about radon testing. - Right after viewing the intervention, take a survey about their views on and plans for radon testing. - 2 months later, take a survey about what, if any, steps they've taken to test their homes for radon. - Provide the researchers permission to collect data from their State Radon Program on: a) whether they requested a free radon test kit and b) whether testing was completed. Some participants will receive reminder messages for 2 months after viewing the intervention. Researchers will compare an online intervention they developed about radon testing to: a) a standard public health infographic and b) their online intervention combined with reminder messages about radon testing. They will compare the interventions by proportion of participants who: a) request a free radon test kit from their State Radon Programs, b) set-up the radon test kit in their homes, and c) complete radon testing.