2022
DOI: 10.1002/nbm.4826
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Fast, interleaved, Look‐Locker–based T1 mapping with a variable averaging approach: Towards temperature mapping at low magnetic field

Abstract: Proton resonance frequency shift (PRFS) is currently the gold standard method for magnetic resonance thermometry. However, the linearity between the temperature‐dependent phase accumulation and the static magnetic field B0 confines its use to rather high‐field scanners. Applications such as thermal therapies could naturally benefit from lower field MRI settings through leveraging increased accessibility, a lower physical and economical footprint, and further consideration of the technical challenges associated… Show more

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Cited by 2 publications
(2 citation statements)
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“…He also showed examples of quantitative imaging and non-Cartesian imaging performed at 0.1T. 38,[58][59][60] Zheng Xu described work with a 2.1 MHz scanner (49 mT) for stroke imaging, which included a new permanent magnet design, active electromagnetic interference (EMI) cancelation, and excellent GRE and bSSFP image quality. 61 Session 13 focused on image reconstruction and processing methods for low-field MRI.…”
Section: Scientific Sessionsmentioning
confidence: 99%
See 1 more Smart Citation
“…He also showed examples of quantitative imaging and non-Cartesian imaging performed at 0.1T. 38,[58][59][60] Zheng Xu described work with a 2.1 MHz scanner (49 mT) for stroke imaging, which included a new permanent magnet design, active electromagnetic interference (EMI) cancelation, and excellent GRE and bSSFP image quality. 61 Session 13 focused on image reconstruction and processing methods for low-field MRI.…”
Section: Scientific Sessionsmentioning
confidence: 99%
“…He emphasized that fast acquisitions must be paired with other methods to mitigate noise, and that it is important to be mindful of hardware to enable optimal, advanced acquisitions. He also showed examples of quantitative imaging and non‐Cartesian imaging performed at 0.1T 38,58–60 . Zheng Xu described work with a 2.1 MHz scanner (49 mT) for stroke imaging, which included a new permanent magnet design, active electromagnetic interference (EMI) cancelation, and excellent GRE and bSSFP image quality 61 …”
Section: Workhop Details Demographics and Contentmentioning
confidence: 99%