Continuous distribution analysis of marrow 1H magnetic resonance relaxation in bone

Longitudinal and transverse NMR relaxation of H-1 nuclei were studied in vitro on fresh animal femur samples. A large number of data points were taken, starting at 100 mus for T-1 by inversion-recovery, at 200 mus for T-2 by single-echo sequences, and at 600 mus for T-2 by CPMG echo-trains. Quasi-continuous distributions of relaxation times were computed, giving wide distributions for all samples. Bulk marrow removed from the medullary cavity showed T-2 distributions from about 20 ms to 600 ms and T-1 distributions from about 40 ms to 2 s. The H-1 nuclei in trabecular bone samples, where marrow is confined, may show long tails for T-2 at relaxation rimes down to 250 mus, the origin of which is still not known. These tails are absent in bulk marrow from the medullary cavity. The differences observed in T-1 distributions among trabecular bone samples are in accordance with the different marrow compositions. Discrete exponential fits were computed also, and in most cases four discrete exponential components were required to fit the experimental data adequately. However, the discrete components do not seem to correspond to any physically distinguishable separate compartments. (C) 2001 Elsevier Science Inc. All rights reserved.