Clinical Research Directory

Shape-Sensing Robotic-Assisted Bronchoscopy for Diagnosis of Peripheral Pulmonary Nodules in Korea

What is this study about? This study tests a new robotic technology to take tissue samples from lung nodules (small spots in the lungs). Some lung nodules are cancer, but doctors need a tissue sample to know for sure. What is the problem? Current methods to get tissue from lung nodules only work about 7 out of 10 times. When they don't work, doctors may need riskier procedures. What is the new technology? The new technology is called robotic bronchoscopy (ssRAB). It uses a robot with special sensors to guide a thin tube more accurately to lung nodules than current methods. Who can join? Adults aged 19 or older who have lung nodules that need tissue sampling and are healthy enough for the procedure. What happens? Participants will have the robotic procedure while asleep under anesthesia. The robot guides a thin tube to the lung nodule to take a small tissue sample. Participants are watched for problems and followed for 6 months. What are the risks and benefits? The new technology may be more accurate and safer than current methods. The main risks are small chance of lung collapse or bleeding, similar to regular procedures. Why is this important? This study will show if the new robotic technology works well and is safe in Korea. If successful, it could help diagnose lung cancer earlier and more accurately. This study will include 100 people at Ulsan University Hospital in Korea.

Diagnosing peRipheral Lung Lesions With CRYO Biopsies

Lung cancer is the leading course of cancer related deaths world-wide. Lung cancer screening will increase the number of small lung lesion in need of biopsy to confirm the diagnosis. Obtaining lung biopsies with a bronchoscopy has the lowest risk of complications (1-2%) compared to other modalities such as transthoracic needle biopsy (20%), however diagnostic yield needs improvement. Currently a diagnosis is established in 50- 70% of the bronchoscopic procedures depending on the step-up. One way to improve the yield would be by using a cryo probe through the bronchoscope which freezes a small part of the lung for extraction, and thereby provides larger biopsies for examination. This will increase the chances of obtaining sufficient material from a small lesion to determine the diagnosis. The DR CRYO study will compare cryo biopsies to forceps biopsies for the diagnosis of peripheral lung lesions. We hope that the cryo biopsies can improve the diagnostic capabilities of bronchoscopy and provide better biopsies for tumor marker analyses. The project is relevant both for patients undergoing diagnostic work-up for lung cancer in early stages .

Comparison of the Diagnostic Accuracy: US-guided Percutaneous Lung Biopsies vs CT-guided in Peripheral Lung Lesions

A non-sponsored prospective randomized single-blind national multicenter interventional study which aims to compare the diagnostic accuracy between US-guided percutaneous lung needle biopsies and CT-guided in peripheral lung lesions. Secondary endpoints are: * onset of number and type of complications during and after the procedure, within the first three hour; * exposition to ionizing radiation, in milligray(mGy); * patient comfort during the procedure; * duration of the procedure,