View clinical trials related to Multiple Pulmonary Nodules.
Filter by:The purpose of this study is to demonstrate feasibility to access, visualize, and obtain specimens adequate for cytology of lung lesions in subjects with suspected lung cancer when using the iNod System.
The ex-vivo lung will be evaluated by XLTF-UC180 for localization of the tumor. The ultrasound probe will be put on the lung surface in several different directions to obtain the cross section with maximum diameter. The ultrasound image with size measurement of the tumor will be recorded using an ultrasound scanner (EU-Y0008, OLYMPUS MEDICALSYSTEMS CORP., Tokyo, Japan). Next, the bronchial stump of the specimen will be opened and a small sized endotracheal tube will be inserted to inflate and deflate the lung. After inflation of the lung, the tumor will be evaluated by XLTF-UC180 to see the difference in ultrasound images between deflated and inflated lung. After ultrasound evaluation, the specimen will be delivered directly to the pathology laboratory and the actual tumor size and histological diagnosis will be determined. In addition, we will evaluate the differences between US image and pathological morphology using HE slides of lung tumor. We will work together with the surgical team to confirm sign off of specimens.
The primary end-point of the study is to determine the sensitivity of OTL in identifying lung nodules when excited by an imaging probe. Investigators intend to enroll 300 lung cancer patients in this study. The study is focusing on patients presenting with suspected malignancies of the lung and pleura who are considered to be good surgical candidates.
The evaluation of solitary pulmonary nodules (SPN) requires a balance between procedure-related morbidity and diagnostic yield, particularly in areas where tuberculosis is endemic. Data on ultrathin bronchoscopy (UB) for this purpose is limited. In this prospective randomised trial we compared diagnostic yield and adverse events of UB with standard-size bronchoscopy (SB) in a cohort of patients with SPN located beyond the visible range of SB.
This clinical trial compares fluorine F 18 L-glutamate derivative BAY94-9392 (18F-FSPG) positron emission tomography (PET)/computed tomography (CT) to the standard of care fluorodeoxyglucose F-18 (18F-FDG) PET/CT in imaging patients with newly diagnosed lung cancer or indeterminate pulmonary nodules. PET/CT uses a radioactive glutamate (one of the common building blocks of protein) called 18F-FSPG which may be able to recognize differences between tumor and healthy tissue. Since tumor cells are growing, they need to make protein, and other building blocks, for cell growth that are made from glutamate and other molecules. PET/CT using a radioactive glutamate may be a more effective method of diagnosing lung cancer than the standard PET/CT using a radioactive glucose (sugar), such as 18F-FDG.
This randomized phase II trial studies acetylsalicylic acid compared to placebo in treating high-risk patients with subsolid lung nodules. A nodule is a growth or lump that may be malignant (cancer) or benign (not cancer). Chemoprevention is the use of drugs to keep cancer from forming or coming back. The use of acetylsalicylic acid may keep cancer from forming in patients with subsolid lung nodules.
The purpose of this study is to compare the yield of two methods for obtaining a lung tissue sample: Procedure #1: standard fiberoptic bronchoscopy (FB) with fluoroscopy, and Procedure #2: ultrathin bronchoscope procedure with fluoroscopy and radial endobronchial ultrasound (R-EBUS). These two procedures are similar in that they both: (1) enable your doctor to look inside your lungs with a device called a bronchoscope, and (2) Use fluoroscopy, which is a technique that uses X-rays to see your lungs. This will give the doctor an opportunity to use either of the bronchoscopy methods described above and compare the tests to see if R-EBUS provides better results than standard bronchoscopy.
The goal of this study is to evaluate the feasibility and safety of navigation guided virtual transthoracic needle biopsy combined with navigational bronchoscopy for the diagnosis of peripheral pulmonary nodules (PPN).
The purpose of this study is to determine whether J-shaped thoracophrenolaparotomy is effective in the surgical treatment of simultaneous liver and right lung metastases from colorectal cancer
This study will determine the feasibility of the novel Indocyanine Green (ICG) fluorescence localization technique with a Laser fluorescence thoracoscope system. The primary objective of this study is to prove the validity and safety of our novel fluorescent localization method with utilized ICG and novel near infra-red fluorescence videoscope system.