Yusuf Abu Tayeb Bhagat1, Chamith S.
Rajapakse1, James H. Love1, Michael J. Wald1,
Jeremy F. Magland1, Alexander C. Wright1, Hee Kwon Song1,
Felix W. Wehrli1
1Laboratory for Structural NMR Imaging,
The
detection of subtle microstructural trabecular bone (TB) alterations such as
the conversion of plates to rods requires adequate signal-to-noise ratio
(SNR), which governs achievable spatial resolution and scan time. Increased
SNR may enhance detection sensitivity for microstructural changes in
treatment studies. Here, the reproducibility of TB quantitative parameters
was investigated using a new 3D fast-spin-echo technique at 7.0T. The imaging
and analysis protocol is shown to provide highly reproducible measures of
scale, topology and mechanical parameters related to TB microstructure.
Performance improvements relative to earlier work are attributed to enhanced
SNR, motion control and correction, and improved registration techniques.