Affiliation:
1. Center for Biomedical Imaging Research, Department of Biomedical Engineering, School of Medicine Tsinghua University Beijing China
2. Marvel Stone Healthcare Wuxi Jiangsu China
3. Sinovation Medical Beijing China
Abstract
AbstractThe aim of the current study was to improve temperature‐monitoring precision using multiecho proton resonance frequency shift‐based thermometry with view‐sharing acceleration for MR‐guided laser interstitial thermal therapy (MRgLITT) on a 0.5‐T low‐field MR system. Both precision and speed of the temperature measurement for clinical MRgLITT treatments suffer at low field, due to reduced image signal‐to‐noise ratio (SNR), decreased temperature‐induced phase changes, and limited RF receiver channels. In this work, a bipolar multiecho gradient‐recalled echo sequence with a temperature‐to‐noise ratio optimal weighted echo combination is applied to improve the temperature precision. A view‐sharing–based approach is utilized to accelerate signal acquisitions while preserving image SNRs. The method was evaluated using ex vivo (pork and pig brain) LITT heating experiments and in vivo (human brain) nonheating experiments on a high‐performance 0.5‐T scanner. In terms of results, (1) after echo combination, multiecho thermometry (i.e., ~7.5–40.5 ms, 7 TEs) provides ~1.5–1.9 times higher temperature precision than the no echo combination case (i.e., TE7 = 40.5 ms) within the same readout bandwidth. Additionally, echo registration is necessary for the bipolar multiecho sequence; (2) for a threefold acceleration, the view‐sharing approach with variable‐density subsampling shows around 1.8 times lower temperature errors than the GRAPPA method. Particularly for view‐sharing, variable‐density subsampling performs better than Interleave subsampling; and (3) ex vivo heating and in vivo nonheating experiments demonstrated that the temperature accuracy was less than 0.5
and that the temperature precision was less than 0.6
using the proposed 0.5‐T thermometry. It was concluded that view‐sharing accelerated multiecho thermometry is a practical temperature measurement approach for MRgLITT at 0.5 T.
Subject
Spectroscopy,Radiology, Nuclear Medicine and imaging,Molecular Medicine
Cited by
1 articles.
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