STUDY OBJECTIVES: To characterize the feasibility, accuracy, and safety of the superDimension/Bronchus system (SDBS) [superDimension, Ltd; Hertzliya, Israel] in navigating to previously unreachable peripheral lung lesions and obtaining biopsy specimens. DESIGN: Open-label, prospective, controlled clinical study. SETTING: Pulmonary institute of a university-affiliated municipal hospital. PATIENTS: Thirteen adult candidates for nonemergency bronchoscopy who gave informed consent to participate. INTERVENTIONS: The patients underwent flexible bronchoscopy using the SDBS, which is based on real-time CT-guided electromagnetic navigation and is capable of reaching peripheral lung masses beyond the reach of the bronchoscope. A position sensor was used to navigate to and sample the various target lesions for biopsy. MEASUREMENTS AND RESULTS: Three-dimensional chest CT was followed by SDBS methodology for marking anatomic landmarks and the target lesion on a virtual bronchoscopy screen and for sampling the lesion. The SDBS assisted in obtaining positive biopsy diagnoses in 9 of 13 cases (69%), with an average navigation accuracy of 5.7 mm. There were no SDBS-related adverse events. CONCLUSIONS: The SDBS is safe and effective in navigating to peripheral lung lesions located beyond the optic limits of a standard flexible bronchoscope.
STUDY OBJECTIVES: To characterize the feasibility, accuracy, and safety of the superDimension/Bronchus system (SDBS) [superDimension, Ltd; Hertzliya, Israel] in navigating to previously unreachable peripheral lung lesions and obtaining biopsy specimens. DESIGN: Open-label, prospective, controlled clinical study. SETTING: Pulmonary institute of a university-affiliated municipal hospital. PATIENTS: Thirteen adult candidates for nonemergency bronchoscopy who gave informed consent to participate. INTERVENTIONS: The patients underwent flexible bronchoscopy using the SDBS, which is based on real-time CT-guided electromagnetic navigation and is capable of reaching peripheral lung masses beyond the reach of the bronchoscope. A position sensor was used to navigate to and sample the various target lesions for biopsy. MEASUREMENTS AND RESULTS: Three-dimensional chest CT was followed by SDBS methodology for marking anatomic landmarks and the target lesion on a virtual bronchoscopy screen and for sampling the lesion. The SDBS assisted in obtaining positive biopsy diagnoses in 9 of 13 cases (69%), with an average navigation accuracy of 5.7 mm. There were no SDBS-related adverse events. CONCLUSIONS: The SDBS is safe and effective in navigating to peripheral lung lesions located beyond the optic limits of a standard flexible bronchoscope.
Authors: Thomas R Gildea; Peter J Mazzone; Demet Karnak; Moulay Meziane; Atul C Mehta Journal: Am J Respir Crit Care Med Date: 2006-07-27 Impact factor: 21.405
Authors: Arjun Nair; Myrna C Godoy; Emma L Holden; Brendan P Madden; Felix Chua; David E Ost; Justus E Roos; David P Naidich; Ioannis Vlahos Journal: Radiographics Date: 2012 Sep-Oct Impact factor: 5.333