View clinical trials related to Lung Cancer.
Filter by:This is a pilot study for placement of a tiny microdevice into lung tumors to more precisely predict tumor-specific drug sensitivity, and to help inform systemic therapeutic decisions. The microdevice will provide a novel technique for interrogating human lung tumor tissue in situ, and will uniquely facilitate assessment of response to multiple drugs simultaneously. This will not only increase the specificity of a particular participant's chosen systemic therapy, it will also augment the speed and efficiency with which investigators are able to make clinical decisions regarding choice of therapy.
The purpose of this pilot study is to examine, in an innovative setting, the potential for a lung cancer diagnosis in a loved one to represent a teachable moment for smoking cessation in family members or caregivers who are current smokers. The researchers will identify the willingness and preferred modality for smoking cessation among family members/caregivers in this setting. The researchers will estimate abstinence rates at 4, 8, 12, and 24 weeks..
adherence of digital follow-up in a population of elderly patients.
The investigators will evaluate the utility of computer aided image analysis in lung cancer with the aim of predicting treatment response and prognosis.
The study duration is 12 months. The initial enrollment visit will take approximately one hour. The Month 1, 3, 6, 7, 9 and 12 visits will take approximately 30 minutes each. The three telephone visits will take approximately 10 minutes each. The total time commitment to the study will be approximately four and a half hours.
During one-lung ventilation in patients undergoing thoracic surgery, the persistent flow in the non-ventilated lung increases intrapulmonary shunt and decreases systemic arterial oxygenation. This prospective, randomized, double blind study was conducted to evaluate the effects of inhaled iloprost during one-lung ventilation on arterial oxygenation and shunt fraction during thoracic surgery.
The SUMMIT Study will enrol 13,000 participants in order to investigate how cancer screening can be improved and delivered. The SUMMIT Study has two main aims: the first is to clinically validate a blood test for detecting multiple cancers at an early stage. The second is to examine the feasibility of delivering a low-dose CT (LDCT) screening service for lung cancer to a high-risk population in North Central and East London.
The primary objective is to determine the safety and tolerability of the novel compound, MRx0518 in patients with solid tumours at 30 days post-surgery. 20 participants will receive open label MRx0518 in a preliminary safety phase. After successful evaluation by the Independent Safety Monitoring Committee (IDMC), a further 100 participants will be recruited to receive MRx0518/Placebo.
This trial studies how well proactive outreach and shared decision making works in improving lung cancer screening rates in primary care patients. Proactive outreach and shared decision making strategies may help to improve the detection of lung cancer at an earlier stage through screening.
The investigators will define two separate groups of surgical procedures: 1.) an 'open group' in which mainly open anatomic lung resections will be included, and 2.) a 'minimally invasive' group in which mainly thoracoscopic anatomic lung resections will be included. Both groups will then be randomized to either the performance of the surgical procedure under 'standard conditions' or to the performance of the procedure with the additional use of a smoke evacuation system. During every procedure the hazardous smoke that is generated by the electrocautery in the surgical field will be collected through a tube at the height of the surgeons face. The smoke is then directly transferred to a mass spectrometer that is situated in the operating room (OR) and performs a real-time analysis of the chemical substances in the air. The degree of air pollution will be measured as well as the smoke evacuation systems' ability to reduce these hazardous chemical substances in the air can be evaluated.