View clinical trials related to Lung Cancer.
Filter by:The study should evaluate the biological distribution of [123I]I-DARPIN-Ec1 in patients with lung and ovarian cancer The primary objective are: 1. To assess the distribution of [123I]I-DARPIN-Ec1 in normal tissues and tumors at different time intervals. 2. To evaluate dosimetry of [123I]I-DARPIN-Ec1. 3. To study the safety and tolerability of the drug [123I]I-DARPIN-Ec1 after a single injection in a diagnostic dosage. The secondary objective are: 1. To compare the obtained [123I]I-DARPIN-Ec1 SPECT imaging results with the data of CT and/or MRI and/or ultrasound examination and immunohistochemical (IHC) studies in lung and ovarian cancer patients.
The goal of this clinical trial is to implement lung cancer screening in a targeted high-risk population of heavy (ex-)smokers in Flanders (Belgium). This implementation study will investigate the participation rate of eligible high risk (ex-)smokers in the First Line Zone South East Region of Antwerp (ZORA) in a LDCT screening program, combined with smoking cessation.
Investigators conducted an observational diagnostic study. The primary objective of the study is to develop a scoring system for detecting pre-lung cancer abnormalities using narrow-band imaging (NBI) bronchoscopy. From the collected data, investigators will perform a multivariate analysis based on the odds ratio (OR) using IBM SPSS software. The result of the data analysis will be transformed into a scoring system aimed to facilitate the early diagnosis of lung cancer, specifically at the pre-cancer stage. This scoring system will also help clinicians detect pre-cancerous abnormalities early and improve patient recovery prospects. Several research questions to be addressed are as follows: 1. What are the NBI image criteria for detecting pre-cancerous lesions in lung tumor patients? 2. What is the diagnostic profile of NBI bronchoscopy in detecting pre-cancerous lesions in lung tumor patients? 3. Can adding the NBI bronchoscopy procedure to the standard bronchoscopy procedure enhance the diagnostic accuracy in detecting pre-cancerous lesions in lung tumor patients? The study population consists of lung tumor patients who have undergone bronchoscopy procedures and meet the protocol acceptance criteria. Bronchial biopsies will be collected from these patients, followed by histopathological examinations.
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.
Screening for lung cancer has the potential for a profound public health benefit. Repeat annual screening is necessary for early detection of lung cancer. The investigators will test two interventions which include patient education and reminders to improve adherence to lung cancer screening.
Background: Many advances have been made in cancer treatments, but more research is needed. Comparing samples of cancerous tissue to samples of normal, noncancerous tissues may help find differences between them. These differences may help researchers find new ways to treat cancer. Objective: To collect tissues and blood samples from people with known or suspected cancer. The samples will be used to help identify new targets for cancer treatments. Eligibility: People aged 18 years and older with a known or suspected cancer that requires surgery or biopsy. Design: Participants will be screened. They will answer questions about their health. They can do this on the phone or in person. Researchers will collect information from participants medical records. Data may include information about any prior or current cancers. Data about other medical conditions may also be collected. Participants will have blood drawn. Some of the blood will be tested for HIV and hepatitis B and C. Some of the blood will be used for genetic research. Participants will have tissue samples collected during surgeries or biopsies. These are procedures the participants would have had as part of their standard care. No new procedures will be done just for this study. Researchers may also seek out samples from prior procedures the participant had done. Participants will remain in the study for 6 months. They may have blood drawn again. Researchers may also collect tissue samples from any procedures performed during that time.
Navigational bronchoscopy (NB) is used to access peripheral and central parenchymal lung lesions via endobronchial and transbronchial approach. Currently there are multiple platforms available to provide guidance to reach the peripheral and central lesions in the lung which are inaccessible via traditional video bronchoscopy. Traditionally NB is done under fluoroscopic guidance using C-arm but with development of Cone Beam CT and 3D reconstruction technology, fluoroscopy can be enhanced to much higher resolution and can also provide real time 3D augmentation of the lesion. It also enables the user to obtain a CT of the Chest to confirm the real time location of the lesion and the bronchoscopic biopsy catheter and instruments. This has proven to improve the yield and sensitivity of Navigational bronchoscopic guided Biopsy of the lung nodules and masses. Out of the various navigational platforms we have, most of them are based on Electromagnetic guidance and some on Shape sensing technology. Some of the platforms have fixed angle catheter while the newer robotic platforms have articulating catheters with much more range of motion. So far we do not have any data directly comparing the diagnostic yield of Electromagnetic navigational bronchoscopy with Robotic shape sensing guided bronchoscopy while using Cone Beam CT and Augmented fluoroscopy with both the platforms. With my study, I want to examine the change in diagnostic yield and sensitivity of fixed angle ENB guided bronchoscopy and articulating robotic shape sensing bronchoscopy both using Cone Beam CT with 3D reconstruction.
The PROFIT study has two complementary aims. The first aim is to compare, in a cohort study enrolling N=257 older adults (>65 years) with lung, gastrointestinal and prostate cancer, different easy measures of frailty (Geriatric 8 questionnaire (G8), Short physical Performance Battery (SPPB) and the IF-VIG), testing their ability to predict survival, functional status (ECOG, Barthel Index), quality of life (EuroQol5D) and resources utilization (visits, hospital admissions, treatments) at 3, 6 and 12 months. The second aim, which motivates the registration in ClinicalTrials.gov, is to conduct a randomized controlled trial (RCT) enrolling N=134 patients per group, with similar characteristics to those enrolled for aim 1, but with mild-moderate frailty (G8≤14 points); we will compare a multi-component CGA-based intervention including physical exercise and nutritional recommendations with usual care, measuring the impact on the same outcomes as for aim 1, at 3 and 6 months. The use of ad hoc eHealth solutions (App/platform for exercise) will foster patients' empowerment and sustainability of the intervention. We will also assess patients, caregivers, and professionals' experience with the intervention through focus groups. Participants will be recruited from outpatients and from post-acute care units.
Lung cancer is a major public health problem and remains the leading cause of cancer mortality worldwide. Moreover, in France, it is the 3rd most common cancer in terms of incidence. Its prognosis remains poor despite the emergence of new therapies, notably the Epithelial Growth Factor Receptor (EGFR) specific tyrosine kinase inhibitors which can be used in patients with adenocarcinoma presenting an activating mutation of EGFR. In addition, a number of questions remain regarding the use of these molecules, including the possibility of combining them with other therapies such as chemotherapy or radiotherapy. In addition, the duration of treatment with tyrosine kinase inhibitors is a matter of debate, mainly in localised forms (ADAURA trial). For this reason, we have proposed tests using TKIs on an in vitro platform based on organoid formation from tumour biopsies of NSCLC patients. This model will allow to test different molecules, in particular osimertinib which is a third generation tyrosine kinase inhibitor. In this way, it will be possible to evaluate in vitro responder patients within a timeframe compatible with the timeframe proposed by the INCA (4-6 weeks). For non-responders, it will also be possible to screen them in vitro and seek the ideal alternative therapy. This model therefore aims to develop personalised medicine in thoracic oncology and could be used as a decision aid during multidisciplinary consultation meetings.
A single site non-commercial study in which people treated for Hodgkin lymphoma survivors will be invited to have a single low dose CT of thorax for lung cancer screening