Fast quantitative 3D ultrashort echo time MRI of cortical bone using extended cones sampling

Abstract

Purpose: To investigate the effect of stretching sampling window on quantitative 3D ultrashort TE (UTE) imaging of cortical bone at 3 T.

Methods: Ten bovine cortical bone and 17 human tibial midshaft samples were imaged with a 3T clinical MRI scanner using an 8-channel knee coil. Quantitative 3D UTE imaging biomarkers, including T₁ , ${\text{T}}_2^{\ast }$ , magnetization transfer ratio and magnetization transfer modeling, were performed using radial or spiral Cones sampling trajectories with various durations. Errors in UTE-MRI biomarkers as a function of sampling time were evaluated using radial sampling as a reference standard.

Results: For both bovine and human cortical bone samples, no significant differences were observed for all UTE biomarkers (single-component ${\text{T}}_2^{\ast }$ , bicomponent ${\text{T}}_2^{\ast }$ and relative fractions, T₁ , magnetization transfer ratio, and magnetization transfer modeling of macromolecular fraction) for spiral sampling windows of 992 µs to 1600 µs compared with a radial sampling window of 688 µs.

Conclusion: The total scan time can be reduced by 76% with quantification errors less than 5%. Quantitative UTE-MRI techniques can be greatly accelerated using longer sampling windows without significant quantification errors.

Keywords: UTE imaging; cortical bone; quantitative; sampling window.