Duane C. Cornish scite author profile

A vital task in the planning of peripheral bronchoscopy is the segmentation of the airway tree from a 3-D multidetector computed tomography chest scan. Unfortunately, existing methods typically do not sufficiently extract the necessary peripheral airways needed to plan a procedure. We present a robust method that draws upon both local and global information. The method begins with a conservative segmentation of the major airways. Follow-on stages then exhaustively search for additional candidate airway locations. Finally, a graph-based optimization method counterbalances both the benefit and cost of retaining candidate airway locations for the final segmentation. Results demonstrate that the proposed method typically extracts 2-3 more generations of airways than several other methods, and that the extracted airway trees enable image-guided bronchoscopy deeper into the human lung periphery than past studies.

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Optimal Procedure Planning and Guidance System for Peripheral Bronchoscopy

Gibbs

Graham

Bascom

et al. 2014

IEEE Trans. Biomed. Eng.

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With the development of multidetector computed-tomography (MDCT) scanners and ultrathin bronchoscopes, the use of bronchoscopy for diagnosing peripheral lung-cancer nodules is becoming a viable option. The work flow for assessing lung cancer consists of two phases: 1) 3-D MDCT analysis and 2) live bronchoscopy. Unfortunately, the yield rates for peripheral bronchoscopy have been reported to be as low as 14%, and bronchoscopy performance varies considerably between physicians. Recently, proposed image-guided systems have shown promise for assisting with peripheral bronchoscopy. Yet, MDCT-based route planning to target sites has relied on tedious error-prone techniques. In addition, route planning tends not to incorporate known anatomical, device, and procedural constraints that impact a feasible route. Finally, existing systems do not effectively integrate MDCT-derived route information into the live guidance process. We propose a system that incorporates an automatic optimal route-planning method, which integrates known route constraints. Furthermore, our system offers a natural translation of the MDCT-based route plan into the live guidance strategy via MDCT/video data fusion. An image-based study demonstrates the route-planning method’s functionality. Next, we present a prospective lung-cancer patient study in which our system achieved a successful navigation rate of 91% to target sites. Furthermore, when compared to a competing commercial system, our system enabled bronchoscopy over two airways deeper into the airway-tree periphery with a sample time that was nearly 2 min shorter on average. Finally, our system’s ability to almost perfectly predict the depth of a bronchoscope’s navigable route in advance represents a substantial benefit of optimal route planning.

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Image-Guided Bronchoscopy for Peripheral Lung Lesions

Merritt

Gibbs

Yu³

et al. 2008

Chest

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Interbronchoscopist Variability in Endobronchial Path Selection

Dolina

Cornish

Merritt

et al. 2008

Chest

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Kalman filter based video background estimation

Scott

Pusateri

Cornish

2009

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Duane C. Cornish

Robust 3-D Airway Tree Segmentation for Image-Guided Peripheral Bronchoscopy

Optimal Procedure Planning and Guidance System for Peripheral Bronchoscopy

Image-Guided Bronchoscopy for Peripheral Lung Lesions

Interbronchoscopist Variability in Endobronchial Path Selection

Kalman filter based video background estimation

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