DocumentCode
1207908
Title
Slice-to-volume registration and its potential application to interventional MRI-guided radio-frequency thermal ablation of prostate cancer
Author
Fei, Baowei ; Duerk, Jeffrey L. ; Boll, Daniel T. ; Lewin, Jonathan S. ; Wilson, David L.
Author_Institution
Dept. of Biomed. Eng., Univ. Hosp. of Cleveland, OH, USA
Volume
22
Issue
4
fYear
2003
fDate
4/1/2003 12:00:00 AM
Firstpage
515
Lastpage
525
Abstract
In this study, we registered live-time interventional magnetic resonance imaging (iMRI) slices with a previously obtained high-resolution MRI volume that in turn can be registered with a variety of functional images, e.g., PET, SPECT, for tumor targeting. We created and evaluated a slice-to-volume (SV) registration algorithm with special features for its potential use in iMRI-guided radio-frequency (RF) thermal ablation of prostate cancer. The algorithm features included a multiresolution approach, two similarity measures, and automatic restarting to avoid local minima. Imaging experiments were performed on volunteers using a conventional 1.5-T MR scanner and a clinical 0.2-T C-arm iMRI system under realistic conditions. Both high-resolution MR volumes and actual iMRI image slices were acquired from the same volunteers. Actual and simulated iMRI images were used to test the dependence of SV registration on image noise, receive coil inhomogeneity, and RF needle artifacts. To quantitatively assess registration, we calculated the mean voxel displacement over a volume of interest between SV registration and volume-to-volume registration, which was previously shown to be quite accurate. More than 800 registration experiments were performed. For transverse image slices covering the prostate, the SV registration algorithm was 100% successful with an error of <2 mm, and the average and standard deviation was only 0.4 mm ± 0.2 mm. Visualizations such as combined sector display and contour overlay showed excellent registration of the prostate and other organs throughout the pelvis. Error was greater when an image slice was obtained at other orientations and positions, mostly because of inconsistent image content such as that from variable rectal and bladder filling. These preliminary experiments indicate that MR SV registration is sufficiently accurate to aid image-guided therapy.
Keywords
biological organs; biomedical MRI; cancer; hyperthermia; image registration; medical image processing; radiation therapy; radiofrequency heating; tumours; C-arm iMRI system; MR scanner; RF needle artifacts; automatic restarting; combined sector display; contour overlay; functional images; high-resolution MRI volume; image noise; image-guided therapy; inconsistent image content; interventional MRI-guided radio-frequency thermal ablation; live-time interventional magnetic resonance imaging slices; local minima avoidance; mean voxel displacement; minimally invasive treatment; multiresolution approach; mutual information; prostate cancer; receive coil inhomogeneity; similarity measures; simulated iMRI images; slice-to-volume registration; standard deviation; transverse image slices; tumor targeting; variable bladder filling; variable rectal filling; visualizations; volume-to-volume registration; Coils; Data visualization; High-resolution imaging; Magnetic resonance imaging; Needles; Neoplasms; Positron emission tomography; Prostate cancer; Radio frequency; Testing; Algorithms; Artifacts; Catheter Ablation; Computer Simulation; Humans; Imaging, Three-Dimensional; Magnetic Resonance Imaging; Male; Monitoring, Intraoperative; Prostatic Neoplasms; Reproducibility of Results; Sensitivity and Specificity; Subtraction Technique; Surgery, Computer-Assisted;
fLanguage
English
Journal_Title
Medical Imaging, IEEE Transactions on
Publisher
ieee
ISSN
0278-0062
Type
jour
DOI
10.1109/TMI.2003.809078
Filename
1200925
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