View clinical trials related to Lung Carcinoma.
Filter by:This clinical trial tests the impact of lung cancer screening care coordination interventions implemented at the system-level on lung cancer screening adherence in community settings. Lung cancer remains the leading cause of cancer death in the United States. Although lung cancer screening (LCS) with yearly low-dose chest computed tomography has the potential to decrease lung deaths, the use of this screening technique remains low. In addition, studies have shown that adherence to lung cancer screening in clinical settings is far lower that those found in clinical trials. Improved care coordination services that include comprehensive, system-wide tracking of screening outcomes for all LCS participants, results reporting with direct-to-patient information, direct patient and physician communication, and active reviews of non-adherent patients and stepped support interventions may increase patient adherence to LCS. Coordination services at the system-level may decrease barriers and improve adherence to lung cancer screening in community settings.
This study evaluates a smoking cessation intervention (CONNECTing to LungCare) for improving shared decision-making conversations about smoking cessation and lung cancer screening between patients and providers. Shared decision making is a patient care model in which providers offer information regarding risks and benefits, patients express their values and preferences, and then healthcare decisions are jointly discussed between the patient and provider. Patient education, aided by decision support tools, can increase patients' knowledge, decrease their decisional conflict, promote decision making, and improve the patients' perception of risk. CONNECTing to LungCare is an interactive education intervention that addresses lung cancer screening and smoking cessation and provides participants with a tailored summary that may make them more likely to have shared decision-making discussions with their providers about smoking cessation and lung cancer screening.
This phase II trial tests the impact of canakinumab on biologic samples (buccal, nasal, and blood) from former smokers with increased risk of cancer. Canakinumab blocks the activity of a protein called interleukin-1 beta (IL-1b), an agent of the inflammatory system and is used for the treatment of different non-cancer diseases (like auto-inflammatory diseases). Giving canakinumab may block the inflammatory system and could have positive effects to reduce cancer growth.
EGFR-tyrosine kinase inhibitor(TKI)- ie, erlotinib, gefitinib, icotinib,has been recommended as the first option for EGFR-mutated IIIb/IV NSCLC by serial trials as it prolonged patients' progression-free survival. The OPTIMAl trial indicated that those who received TKI and chemotherapy during the whole treatment window survived longest. Unfortunately, previous studies(INTACT, TRIBUTE et al) that concurrently combined TKI and cytotoxic regimens failed to improve survival in unselected patients. To avoid the potential synergistic antagonism, the FAST-ACT II trial committed a sequential strategy and find a superiority in the combination arm upon chemotherapy even in EGFR-mutated group. However, pharmaceutically, the continuous administration of an EGFR-TKI before subsequent chemotherapy in FAST-ACT II could obviate the effects of cytotoxic agents due to the erlotinib-induced G1 arrest. On the basis of these and other studies, the investigators hypothesized that a better sequential combination strategy of EGFR-TKI and chemotherapy (adding a EGFR-TKI wash-out window before chemotherapy) would be more efficacious than chemotherapy alone. In this study, the investigators investigate the efficacy(PFS:progression free survival), safety, and adverse-event profile of chemotherapy plus intermittent and maintenance of icotinib compared with icotinib single drug, when these drugs were used as first-line treatment in who had non-squamous lung carcinoma with EGFR gene mutation in China.