View clinical trials related to Lung; Node.
Filter by:Since the traditional radial endobronchial ultrasound guided biopsy technique of solitary pulmonary nodules using the forceps has several shortcomings, the purpose of this study is to investigate a new biopsy technique using the transbronchial cryobrobe
Veye Lung Nodules (Aidence B.V., Amsterdam, the Netherlands) is a medical software device that is intended to assist radiologists with pulmonary nodule management on CT chest scans. This clinical trial aims to assess the clinical performance of Veye Lung nodules via a standalone performance evaluation and a reader study.
The purpose of this study is to determine if the cone beam computed tomography (CBCT)-guided navigation bronchoscopy is better in diagnosing lung nodules compared to navigation bronchoscopy alone.
This is a single-center pilot study at the Medical University of South Carolina (MUSC) to evaluate the safety and efficacy of the TCP-EBUS scope (Thin EBUS). This study will consist of a standard of care bronchoscopy and will be followed for approximately 3 months. While the device is not FDA approved, it is the same technology but a thinner version of the SCP-EBUS bronchoscope.
The study is designed to evaluate the efficacy and safety of Augmented Reality Navigation System through intra-airway navigation system to guide bronchoscopy in the diagnosis of peripheral pulmonary nodules and explore the factors of diagnosis yield.
The purpose of this study is to test the ability of a new technology called breathprinting, or electronic nose (e-nose), to detect early-stage lung cancer. Additionally, researchers also want to see if the e-nose technology is more effective at diagnosing lung cancer if the tumor size is larger.
Investigators aim to compare the diagnostic accuracy and radiation exposure between low-dose and standard-dose computed tomography-guided core needle biopsy for lung nodules.
The researchers are aimed to investigate the early diagnosis of pulmonary nodule based on DNA, RNA, protein, metabolites through analyzing the serum, plasma, urine, faeces, peripheral blood mononuclear cell (PBMC), exhaled breath condensate and clinical characteristics.
In this study, the feasibility of performing robotic navigation of peripheral airways in human subjects for the purpose of biopsying peripheral lung lesions will be evaluated.