View clinical trials related to Multiple Pulmonary Nodules.
Filter by:Due to CT screening, a lot of peripheral nodule not accessible to conventional endoscopy will be found. Electromagnetic navigation directed bronchoscopy (ENB) is a new technique needing validation. the primary aim of the study is to compare ENB to radiologically guided bronchoscopy, considered the standard comparator.
This study is intended to determine the positive predictive value (PPV) and negative predictive value (NPV) of the multiprotein classifier based on the observed study prevalence of Non-Small Cell Lung Cancer (NSCLC) in the study participants.
The study aims to determine if there are defining EBUS and confocal endoscopy features as well as exhaled alveolar gas VOC that can discriminate malignant pulmonary nodules or masses from benign etiology, thereby obviating unnecessary thoracotomy. Directly sampled alveolar gas VOC from patients with lung cancer will be compared against exhaled breath VOC for signature compounds that may complement CT in screening the population at risk.
The primary Study hypothesis is that the ProLung Test will demonstrate safety and efficacy in the risk stratification of patients with pulmonary lesions identified by CT that are suspicious for lung cancer. A statistically significant result will indicate that patients with a high ProLung Test result have a greater risk of developing lung cancer than patients with a low test result. There are three Specific Aims of this study: 1. Optimize and confirm the stability of the ProLung Test risk-stratification algorithm in patients with a diagnosis. 2. Externally validate the efficacy of the ProLung Test risk-stratification algorithm by comparing the test result to the conclusive patient diagnosis. 3. Assess the safety and tolerability of the ProLung Test procedures. Study Design This Study consists of two distinct phases, Stabilization and Validation. The Study will collect data from multiple sites (3 to 12), and each site may enroll patients and collect data for the Stabilization and Validation Phases with a minimum of three sites for the Validation Phase.
The ACRIN 7151 trial will use medical records abstraction data from participants with extracolonic findings (ECFs) reported from the ACRIN 6664 National CT Colonography Trial to: 1) measure incidence of diagnostic imaging, hospitalization, and interventional procedures associated with ECFs reported on computed tomography colonography (CTC), delineated by type of ECF; 2) determine potential predictors of follow-up diagnostic imaging, hospitalization, and interventional procedures, delineated by type of ECF; and 3) evaluate the clinical/pathologic diagnoses associated with indeterminate but potentially significant ECFs. These data can be used to incorporate ECFs into existing models on the cost-effectiveness of CTC in colorectal cancer screening and can potentially be used to develop guidelines for the reporting and management of ECFs.
Aim of this prospective randomized study is to assess the safety and efficacy of video-assisted lung segmentectomy (Group B) comparing with mini muscle-sparing thoracotomy (group A) during diagnostic process for pulmonary nodules.
To proof the feasibility and safety of EBUS guided transbronchial cryo biopsies in peripheral lung lesions
Pulmonary nodules are one of the most common thoracic radiographic abnormalities. They are usually found accidentally as discrete well emarginated pulmonary lesions found within the lung parenchyma during a routine chest x-ray. Pulmonary nodules are usually asymptomatic. Most solitary lung nodules are benign; however these nodules can represent early stage lung cancer. The identification of malignant pulmonary nodules is important because they represent a potential form of curable lung malignancy. Every lung nodule should therefore be investigated for the possibility of malignancy. Ultrasound has been beneficial in almost all medical and surgical specialities. The idea of using ultrasound during VATS has emerged from its use in laparoscopic procedures. Few studies have investigated the use intracavitary ultrasound for localizing pulmonary nodules. The sensitivity of ultrasound detecting pulmonary nodules is high (92%). In some studies, ultrasound could detect all pulmonary nodules detected by high resolution CT. It has also been shown to be able to locate nodules not visualized on spiral CT. The use of intracavitary ultrasound has been suggested by many authors as a safe and effective method for localizing hard to find nodules. It is a real time technique with no associated complications, low cost, and has the potential to save operative time. Most importantly, it may be able to prevent conversion of VATS to open operations in cases where nodules are not visualizable or locatable using VATS techniques. The use of intracavitary US as a localization method by surgeons intra-operatively could lead to better identification of nodules. Also, this technique could avoid performing multiple procedures on patients (CT guided targeting followed by surgery) and therefore is more cost-efficient. If proven accurate, surgeon-performed intracavitary ultrasound could be used routinely during VATS procedures, increasing the chances of finding and localizing pulmonary nodules using minimally invasive techniques.
Among the causes of the solitary pulmonary nodule (SPN), benign causes including tuberculosis was noted on 15 to 60 percents in various studies. Although the characteristics of chest imaging is helpful in diagnosis and percutaneous needle biopsy for pulmonary nodule has been represented high diagnostic yield in many reports, but still surgical biopsy has been needed in definite diagnosis of pulmonary nodules in many cases. The aim of this study is to evaluate the usefulness of interferon-gamma release assay in addition to the percutaneous needle biopsy, in diagnosis of pulmonary nodules.
To perform a multiple reader, multiple case (MRMC) observer study assessing the detection performance of VolumeRAD tomosynthesis of the chest in detecting lung nodules.