2013
DOI: 10.1088/0031-9155/58/16/5735
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A fast referenceless PRFS-based MR thermometry by phase finite difference

Abstract: Proton resonance frequency shift-based MR thermometry is a promising temperature monitoring approach for thermotherapy but its accuracy is vulnerable to inter-scan motion. Model-based referenceless thermometry has been proposed to address this problem but phase unwrapping is usually needed before the model fitting process. In this paper, a referenceless MR thermometry method using phase finite difference that avoids the time consuming phase unwrapping procedure is proposed. Unlike the previously proposed phase… Show more

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Cited by 21 publications
(22 citation statements)
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“…Temperature uncertainty for ex vivo porcine liver experiments in this study (1.49 °C) maintained an accuracy similar to the results reported by Harth et al on a 1.5 T MRI scanner (1.50 °C) [ 41 ]. Human brain studies showed that the temperature error obtained by the phase-drift correction PRFS thermometry was larger than that calculated by the phase gradient method, and smaller than that obtained by the phase finite difference model from a previous study [ 40 ]. The distinction of results could be acceptable and reasonable due to the obvious difference in field strengths.…”
Section: Discussionmentioning
confidence: 69%
See 1 more Smart Citation
“…Temperature uncertainty for ex vivo porcine liver experiments in this study (1.49 °C) maintained an accuracy similar to the results reported by Harth et al on a 1.5 T MRI scanner (1.50 °C) [ 41 ]. Human brain studies showed that the temperature error obtained by the phase-drift correction PRFS thermometry was larger than that calculated by the phase gradient method, and smaller than that obtained by the phase finite difference model from a previous study [ 40 ]. The distinction of results could be acceptable and reasonable due to the obvious difference in field strengths.…”
Section: Discussionmentioning
confidence: 69%
“…Images were scanned by GRE sequence in the transverse plane using the following scanning parameters: TR/TE = 50/30 ms, FA = 30°, Matrix size = 128 × 128, FOV = 256 mm, number of slices = 3, ST/SG = 8/0 mm, acquisition time = 6.4 s/slice. In order to compare with the results obtained by Zou et al at 3.0 T MR scanner [ 40 ], the width of the selected inner and outer ROI (see as Fig. 3 b) were both 10 pixels (2 cm), which was the same as the above published literature.…”
Section: Methodsmentioning
confidence: 99%
“…Further improvements are offered by reference-less methods [126,153], whereby a background phase is derived from the n th image during ablation. This is achieved by fitting a polynomial to the surrounding unheated region and extrapolating to the heated region, thus avoiding subtraction with a separate image [21,154]. This approach is only successful if sufficient SNR is available, and if water-fat interfaces which can lead to inaccurate polynomial fitting are absent.…”
Section: Limitations In Methods Based On the Chemical Shift Of Water mentioning
confidence: 99%
“…The main drawback of PRF, especially in in vivo applications [14], is its high sensitivity to motion. Although recently many authors are investigating several promising strategies to reduce artifact due to patient movements [17,18], the effective spread of PRF is still limited in clinical applications. For the above mentioned reasons, our experiments employed the thermal dependence of T 1 of tissue for the estimation of temperature distribution within pancreas and liver during LA.…”
Section: Monitoring Of Tissue Temperature Through T 1 -Weighted Imagesmentioning
confidence: 99%