3-AXIAL STRAIN CONTROLLED TESTING APPLIED TO BONE SPECIMENS FROM THE PROXIMAL TIBIAL EPIPHYSIS

Reproducibility of the determination of Young's modulus and energy absorption along the three axes of trabecular bone cubes was analysed by non-destructive compression to 0.5% strain using different testing protocols. These protocols included testing with and without pre-conditioning to a viscoelastic steady state, and different orders of test directions. Reproducibility of conditioned tests was generally better than that of non-conditioned tests. No major effect of changing the order of the test direction was found. Three-axial conditioned testing of cubes from the proximal tibial epiphysis of five humans revealed a global transverse isotrophy while most cubes showed orthotropy. The ratio between stiffness along the long axis of the tibia and the stiffness in the transverse plane was 3.7 ± 0.4 (mean ± 2 SE). The corresponding ratios for elastic energy storage and viscoelastic energy dissipation were 2.5 ± 0.2. There was no difference between the relative energy loss during a testing cycle (loss tangent) in the three axes. © 1990.