Markerless motion tracking of lung tumors using dual-energy fluoroscopy Journal Article

Authors: Patel, R; Panfil, J; Campana, M.; Block, A. M.; Harkenrider, M. M.; Surucu, M; Roeske, J. C.
Article Title: Markerless motion tracking of lung tumors using dual-energy fluoroscopy
Abstract: PURPOSE: To evaluate the efficacy of dual-energy (DE) vs single-energy (SE) fluoroscopic imaging of lung tumors using a markerless template-based tracking algorithm. METHODS: Ten representative patient breathing patterns were programmed into a Quasar motion phantom. The phantom was modified by affixing pork ribs to the surface, and a cedar insert with a small spherical volume was used to simulate lung and tumor, respectively. Sequential 60 kVp (6 mA) and 120 kVp (1.5 mA) fluoroscopic sequences were acquired. Frame-by-frame weighted logarithmic subtraction was performed resulting in a DE fluoroscopic sequence. A template-based algorithm was then used to track tumor motion throughout the DE and SE fluoroscopy sequences. Tracking coordinates were evaluated against ground-truth tumor locations. Fluoroscopic images were also acquired for two lung cancer patients, neither of which had implanted fiducials. RESULTS: For phantom imaging, a total of 1925 frames were analyzed. The algorithm successfully tracked the target on 99.9% (1923/1925) of DE frames vs 90.7% (1745/1925) SE images (p 5 mm displacements from the ground truth vs 0% for DE fluoroscopy. CONCLUSIONS: This work indicates the potential for markerless tumor tracking utilizing DE fluoroscopy. With DE imaging, the algorithm showed improved detectability vs SE fluoroscopy and was able to accurately track the tumor in nearly all cases.
Journal Title: Medical physics
Volume: 42
Issue: 1
ISSN: 0094-2405; 0094-2405
Publisher: Unknown  
Journal Place: United States
Date Published: 2015
Start Page: 254
Language: eng
Notes: JID: 0425746; ppublish