1. Real-time method for motion-compensated MR thermometry and MRgHIFU treatment in abdominal organs.
- Author
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Celicanin Z, Auboiroux V, Bieri O, Petrusca L, Santini F, Viallon M, Scheffler K, and Salomir R
- Subjects
- Abdomen physiology, Abdomen radiation effects, Abdomen surgery, Animals, Body Temperature physiology, Body Temperature radiation effects, Computer Systems, High-Energy Shock Waves, Image Enhancement methods, In Vitro Techniques, Motion, Reproducibility of Results, Sensitivity and Specificity, Sheep, Surgery, Computer-Assisted methods, Turkey, Viscera radiation effects, Artifacts, High-Intensity Focused Ultrasound Ablation methods, Magnetic Resonance Imaging methods, Thermography methods, Viscera physiology, Viscera surgery
- Abstract
Purpose: Magnetic resonance-guided high-intensity focused ultrasound is considered to be a promising treatment for localized cancer in abdominal organs such as liver, pancreas, or kidney. Abdominal motion, anatomical arrangement, and required sustained sonication are the main challenges., Methods: MR acquisition consisted of thermometry performed with segmented gradient-recalled echo echo-planar imaging, and a segment-based one-dimensional MR navigator parallel to the main axis of motion to track the organ motion. This tracking information was used in real-time for: (i) prospective motion correction of MR thermometry and (ii) HIFU focal point position lock-on target. Ex vivo experiments were performed on a sheep liver and a turkey pectoral muscle using a motion demonstrator, while in vivo experiments were conducted on two sheep liver., Results: Prospective motion correction of MR thermometry yielded good signal-to-noise ratio (range, 25 to 35) and low geometric distortion due to the use of segmented EPI. HIFU focal point lock-on target yielded isotropic in-plane thermal build-up. The feasibility of in vivo intercostal liver treatment was demonstrated in sheep., Conclusion: The presented method demonstrated in moving phantoms and breathing sheep accurate motion-compensated MR thermometry and precise HIFU focal point lock-on target using only real-time pencil-beam navigator tracking information, making it applicable without any pretreatment data acquisition or organ motion modeling., (Copyright © 2013 Wiley Periodicals, Inc.)
- Published
- 2014
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