T2 mapping at 0.55 T using Ultra-Fast Spin Echo MRI

TL;DR

This study demonstrates a rapid and reliable method for high-resolution T2 mapping MRI at 0.55 T, providing normative brain T2 values and showing potential for accessible neuroimaging in pediatric populations.

Contribution

It introduces a novel, fast T2 mapping protocol at 0.55 T using ultra-fast spin echo MRI, with validated in vitro and in vivo results, and first normative T2 values for healthy adult brains at this field strength.

Findings

In vitro T2 measurements deviated less than 12% from reference values.

In vivo inter-subject CoV was 5.2% for white matter and 17.7% for grey matter.

Mean T2 times at 0.55 T were 118 ms (WM) and 188 ms (GM).

Abstract

Low-field T2 mapping MRI can democratize neuropediatric imaging by improving accessibility and providing quantitative biomarkers of brain development. \textbf{Purpose:} To evaluate the feasibility of high-resolution T2 mapping using a single-shot fast spin-echo (SS-FSE) sequence at 0.55~T in a healthy control cohort. \textbf{Study Type:} Prospective single-center study. \textbf{Population:} In vivo: ten healthy adults (18--43~years, 5 females/5 males). In vitro: NIST Phantom. \textbf{Field strength/sequence:} Multi-echo ultra-fast spin-echo at 0.55~T and 1.5~T. \textbf{Assessment:} Feasibility was first assessed in vitro using the NIST Phantom, comparing T2 relaxation times to spectrometer references at 0.55~T. Acquisition and T2-fitting parameters optimized in vitro were applied in vivo. Repeatability was evaluated by atlas-based analysis of white matter (WM) and cortical grey matter (GM) regions. Coefficients of variation (CoV) were computed across runs, sessions, and subjects. \textbf{Statistical Tests:} Wilcoxon signed-rank test with Bonferroni correction ($\alpha = 0.05/n_{ROI}$) assessed CoV differences. Pearson correlation coefficients quantified T2 associations. \textbf{Results:} In vitro, mono-exponential fitting under Gaussian--Rician noise yielded deviations $<12\%$ from reference values. In vivo, inter-subject CoV was 5.2\% (WM) and 17.7\% (GM), comparable to 1.5~T. Mean T2 times were 118~ms (WM) and 188~ms (GM) at 0.55~T, with a 16.5-minute acquisition. \textbf{Conclusion:} A rapid, robust high-resolution T2 mapping protocol at 0.55~T for HASTE MRI is presented, employing Gaussian noise-based fitting. We report the first normative T2 values for healthy adult brains at 0.55~T, demonstrating technical feasibility and reliability.