Field drift correction of proton resonance frequency shift temperature mapping with multichannel fast alternating nonselective free induction decay readouts

Publication date

2020-03-01

Authors

Ferrer, Cyril J.
Bartels, WilbertISNI 0000000388733745
Van Der Velden, Tijl A.
Grüll, Holger
Heijman, Edwin
Moonen, C. T. W.ORCID 0000-0001-5593-3121ISNI 0000000038813649
Bos, CORCID 0000-0002-9246-3242ISNI 0000000388845122

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Abstract

Purpose: To demonstrate that proton resonance frequency shift MR thermometry (PRFS-MRT) acquisition with nonselective free induction decay (FID), combined with coil sensitivity profiles, allows spatially resolved B0 drift-corrected thermometry. Methods: Phantom experiments were performed at 1.5T and 3T. Acquisition of PRFS-MRT and FID were performed during MR-guided high-intensity focused ultrasound heating. The phase of the FIDs was used to estimate the change in angular frequency δωdrift per coil element. Two correction methods were investigated: (1) using the average δωdrift over all coil elements (0th-order) and (2) using coil sensitivity profiles for spatially resolved correction. Optical probes were used for independent temperature verification. In-vivo feasibility of the methods was evaluated in the leg of 1 healthy volunteer at 1.5T. Results: In 30 minutes, B0 drift led to an apparent temperature change of up to –18°C and –98°C at 1.5T and 3T, respectively. In the sonicated area, both corrections had a median error of 0.19°C at 1.5T and –0.54°C at 3T. At 1.5T, the measured median error with respect to the optical probe was –1.28°C with the 0th-order correction and improved to 0.43°C with the spatially resolved correction. In vivo, without correction the spatiotemporal median of the apparent temperature was at –4.3°C and interquartile range (IQR) of 9.31°C. The 0th-order correction had a median of 0.75°C and IQR of 0.96°C. The spatially resolved method had the lowest median at 0.33°C and IQR of 0.80°C. Conclusion: FID phase information from individual receive coil elements allows spatially resolved B0 drift correction in PRFS-based MRT.

Keywords

B field control, B field drift, coil sensitivity, FID, PRFS thermometry, receiver coil array, B-0 field control, B-0 field drift, Radiology Nuclear Medicine and imaging, Journal Article

Citation

Ferrer, C J, Bartels, L W, van der Velden, T A, Grüll, H, Heijman, E, Moonen, C T W & Bos, C 2020, 'Field drift correction of proton resonance frequency shift temperature mapping with multichannel fast alternating nonselective free induction decay readouts', Magnetic Resonance in Medicine, vol. 83, no. 3, pp. 962-973. https://doi.org/10.1002/mrm.27985