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Evaluation of Fiducial Markers for Ultrasound and X-Ray Images Used for Motion Tracking in Pancreas SBRT


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SK Ng1*, E Armour1 , L Su1 , Y Zhang1 , I Iordachita2 , J Wong1 , H Tutkun Sen3 , P Kazanzides3 , M Lediju Bell3 , K Ding1 , (1) Department of Radiation Oncology, Johns Hopkins University, Baltimore, MD (2) Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD (3) Department of Computer Science, Johns Hopkins University, Baltimore, MD

Presentations

SU-E-J-42 (Sunday, July 12, 2015) 3:00 PM - 6:00 PM Room: Exhibit Hall


Purpose:Ultrasound tracking of target motion relies on visibility of vascular and/or anatomical landmark. However this is challenging when the target is located far from vascular structures or in organs that lack ultrasound landmark structure, such as in the case of pancreas cancer. The purpose of this study is to evaluate visibility, artifacts and distortions of fusion coils and solid gold markers in ultrasound, CT, CBCT and kV images to identify markers suitable for real-time ultrasound tracking of tumor motion in SBRT pancreas treatment.

Methods:Two fusion coils (1mm x 5mm and 1mm x 10 mm) and a solid gold marker (0.8mm x 10mm) were embedded in a tissue–like ultrasound phantom. The phantom (5cm x 12cm x 20cm) was prepared using water, gelatin and psyllium-hydrophilic-mucilloid fiber. Psyllium-hydrophilic mucilloid acts as scattering medium to produce echo texture that simulates sonographic appearance of human tissue in ultrasound images while maintaining electron density close to that of water in CT images. Ultrasound images were acquired using 3D-ultrasound system with markers embedded at 5, 10 and 15mm depth from phantom surface. CT images were acquired using Philips Big Bore CT while CBCT and kV images were acquired with XVI-system (Elexta). Visual analysis was performed to compare visibility of the markers and visibility score (1 to 3) were assigned.

Results:All markers embedded at various depths are clearly visible (score of 3) in ultrasound images. Good visibility of all markers is observed in CT, CBCT and kV images. The degree of artifact produced by the markers in CT and CBCT images are indistinguishable. No distortion is observed in images from any modalities.

Conclusion:All markers are visible in images across all modalities in this homogenous tissue-like phantom. Human subject data is necessary to confirm the marker type suitable for real-time ultrasound tracking of tumor motion in SBRT pancreas treatment.


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