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Uncertainties of Synchrotron microCT-based Digital Volume Correlation bone strain measurements under simulated deformation

DOI: 10.1016/j.jbiomech.2019.01.041 DOI Help

Authors: F. Comini (University of Sheffield) , M. Palanca (Alma Mater Studiorum - Università di Bologna) , L. Cristofolini (Alma Mater Studiorum - Università di Bologna) , E. Dall'ara (University of Sheffield)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Journal Of Biomechanics

State: Published (Approved)
Published: January 2019
Diamond Proposal Number(s): 10315

Abstract: Digital Volume Correlation (DVC) is used to measure internal displacements and strains in bone. Recent studies have shown that synchrotron radiation micro-computed tomography (SR-microCT) can improve the accuracy and precision of DVC. However, only zero-strain or virtually-moved test have been used to quantify the DVC uncertainties, leading to potential underestimation of the measurement errors. In this study, for the first time, the uncertainties of a global DVC approach have been evaluated on repeated SR-microCT scans of bovine cortical bone (voxel size: 1.6μm), which were virtually deformed for different magnitudes and along different directions. The results showed that systematic and random errors of the normal strain components along the deformation direction were higher than the errors along unstrained directions. The systematic percentage errors were smaller for larger virtual deformations. The random percentage error was in the order of 10% of the virtual deformation. However, higher errors were localized at the boundary of the volumes of interest, perpendicular to the deformation direction. When only the central region of the samples was considered (100 micrometers layers removed from the borders where the deformation was applied), the errors in the direction of virtual deformation were comparable to the errors in the unstrained directions. In conclusion, the method presented to estimate the uncertainties of DVC is suitable for testing anisotropic specimens as cortical bone. The good agreement between the uncertainties in measurements of strain components obtained with this approach and with the simpler zero-strain-test suggests that the latter is adequate in the tested deformation scenarios.

Journal Keywords: Bone; Strain; Digital Volume Correlation; Synchrotron microCT; Uncertainties

Subject Areas: Biology and Bio-materials


Instruments: I13-2-Diamond Manchester Imaging