Experimental method for the measurement of the elastic modulus of trabecular bone tissue

Trabecular structure as well as bone mass is important in studies of bone disease and fracture. An automated method for the direct analysis of two-dimensional trabecular microanatomy and its application to human iliac crest bone biopsies is described. Compared with established methods which require

The magnetic field induced in the pores of trabecular bone as a result of the susceptibility difference between bone and bone marrow was computed with the aid of magnetic surface charge models generated from images of trabecular bone specimens acquired at 78 and 63 m resolution. The predicted field

An experiment was undertaken to obtain approximate values for the intrinsic elastic modulus of subchondral bone. Shallow spherical caps, with uniform and incrementally controlled thickness, were machined from subchondral bone in the weight-bearing regions of 11 fresh-frozen normal femoral head autop

## Abstract A compact MRI system for measuring the trabecular bone (TB) microstructure of the finger using a high‐field‐strength (1.0T) permanent magnet was developed. The entire system was installed in a 0.6 m × 1.2 m space. One male and 36 female subjects participated in the imaging experiments.

## Abstract A compact MRI system for trabecular bone (TB) microstructure measurements of the distal radius was developed using a 1.0 T permanent magnet and a compact MRI console. TB microstructure of the distal radius was clearly visualized using a three‐dimensional (3D) driven equilibrium spin‐ech