Airway segmentation and centerline extraction from thoracic CT: Comparison of a new method to state of the art commercialized methods

Authors :: Reynisson, P.J. (author)
Scali, M. (author)
Smistad, E. (author)
Hofstad, E.F. (author)
Leira, H.O. (author)
Lindseth, F. (author)
Nagelhus Hernes, T.A. (author)
Amundsen, T. (author)
Sorger, H. (author)
Lango, T. (author)
Reynisson, P.J. (author)
Scali, M. (author)
Smistad, E. (author)
Hofstad, E.F. (author)
Leira, H.O. (author)
Lindseth, F. (author)
Nagelhus Hernes, T.A. (author)
Amundsen, T. (author)
Sorger, H. (author)
Lango, T. (author)
Publication Year :: 2015
Abstract: Our motivation is increased bronchoscopic diagnostic yield and optimized preparation, for navigated bronchoscopy. In navigated bronchoscopy, virtual 3D airway visualization is often used to guide a bronchoscopic tool to peripheral lesions, synchronized with the real time video bronchoscopy. Visualization during navigated bronchoscopy, the segmentation time and methods, differs. Time consumption and logistics are two essential aspects that need to be optimized when integrating such technologies in the interventional room. We compared three different approaches to obtain airway centerlines and surface.<br />BioMechanical Engineering (BME)<br />Mechanical, Maritime and Materials Engineering

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