Multi-center randomized controlled study designed to compare the diagnostic yield of ION™ Endoluminal System with electromagnetic navigation bronchoscopy in patients undergoing transbronchial sampling procedure of peripheral pulmonary nodules.
Lung cancer is the malignant tumor with the highest morbidity and mortality in the world. Besides the aggressive nature of lung cancer, the overall high cancer mortality is mainly associated with the time delay between cancer development and initial clinical symptoms. In the past, bronchoscope was mainly used to biopsy the nodules in the central airway but played a limited role in managing peripheral nodules due to its low diagnosis accuracy in such nodules. Advanced bronchoscopic techniques include tools for bronchoscopic guidance such as guide sheath (GS), Endobronchial Ultrasound (EBUS), Electromagnetic Navigation (ENB), or Virtual Bronchoscopic Navigation (VBN). In well-designed clinical studies, these techniques can be used to increase the diagnostic yield of flexible bronchoscope in dealing with peripheral nodules. However, the real-world registry study data showed that the diagnostic yield of these techniques in practice is as low as 53.7 %.. More importantly, these advanced bronchoscopic techniques haven't been widely used or become standard treatments in China mainly due to high skill requirements and high costs. ION™ Endoluminal System is a robotic-assisted system which assists the user in navigating a catheter and endoscopic tools in the pulmonary tract under bronchial endoscope for diagnostic and therapeutic procedures. The fully articulating catheter with a small outer diameter of 3.5 mm can enter the small airways around the lungs with navigation enabled by shape-sensing technology and not electromagnetics; the shape sensing fiber provides instant feedbacks on shapes and locations during navigation and biopsy. The tool channel with an inner diameter of 2 mm for the catheter is compatible with various biopsy tools. The purpose of this study a randomized controlled study to test the hypothesis that the diagnostic yield of ION™ is Superior to electromagnetic navigation bronchoscopy in patients undergoing bronchoscopy to biopsy a peripheral pulmonary nodule (PPN).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
DIAGNOSTIC
Masking
SINGLE
Enrollment
354
Participants in the test arm will undergo a diagnostic bronchoscopy with ION™ Endoluminal System.
Participants in the control arm will undergo a diagnostic bronchoscopy with superDimension Navigation System and Accessories.
Shanghai Chest Hospital
Shanghai, Shanghai Municipality, China
RECRUITINGZhongshan Hospital
Shanghai, Shanghai Municipality, China
NOT_YET_RECRUITINGWest China Hospital
Chengdu, Sichuan, China
NOT_YET_RECRUITINGDiagnostic Yield
Diagnostic yield=number of study procedures in which a true positive for malignancy or a specific benign result is diagnosed by biopsy or non-specific benign is confirmed at the follow-up 6 months after procedure/total number of study procedures of each group ×100 %
Time frame: 6 months post-procedure
Sensitivity for malignancy of biopsy obtained samples
Diagnostic sensitivity of malignancies=number of cases diagnosed with malignancies by study procedure / number of causes with malignancies in each group \* 100 %
Time frame: 6 months post-procedure
Incidence of pneumothorax that requires chest tube placement and/or re-hospitalization or extended hospitalization
Pneumothorax is graded according to CTCAE 5.0. and differentiated according to the necessity to place a chest tube, readmission to the hospital, or prolonged hospitalization.
Time frame: 1 month post-procedure
Incidence of intraoperative severe airway bleeding
Severe airway bleeding is defined as Grade 3 or above per Nashville Delphi scale (2020).
Time frame: Intra-procedure
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