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ABSTRACT: Purpose
Cortical thickness (Ct.Th) and porosity (Ct.Po) are key parameters for the identification of patients with fragile bones. The main objective of this ex vivo study was to validate the measurement of Ct.Po and Ct.Th at the tibia using a non-ionizing, low-cost, and portable 500-kHz ultrasound axial transmission system. Additional ultrasonic velocities and site-matched reference parameters were included in the study to broaden the analysis.Methods
Guided waves were successfully measured ex vivo in 17 human tibiae using a novel 500-kHz bi-directional axial transmission probe. Theoretical dispersion curves of a transverse isotropic free plate model with invariant matrix stiffness were fitted to the experimental dispersion curves in order to estimate Ct.Th and Ct.Po. In addition, the velocities of the first arriving signal (?FAS) and A0 mode (?A0) were measured. Reference Ct.Po, Ct.Th, and vBMD were obtained from site-matched micro-computed tomography. Scanning acoustic microscopy (SAM) provided the acoustic impedance of the axial cortical bone matrix.Results
The best predictions of Ct.Po (R2?=?0.83, RMSE?=?2.2%) and Ct.Th (R2?=?0.92, RMSE?=?0.2 mm, one outlier excluded) were obtained from the plate model. The second best predictors of Ct.Po and Ct.Th were vBMD (R2?=?0.77, RMSE?=?2.6%) and ?A0 (R2?=?0.28, RMSE?=?0.67 mm), respectively.Conclusions
Ct.Th and Ct.Po were accurately predicted at the human tibia ex vivo using a transverse isotropic free plate model with invariant matrix stiffness. The model-based predictions were not further enhanced when we accounted for variations in axial tissue stiffness as reflected by the acoustic impedance from SAM.
SUBMITTER: Schneider J
PROVIDER: S-EPMC6394459 | biostudies-literature | 2019 Feb
REPOSITORIES: biostudies-literature
Archives of osteoporosis 20190220 1
The estimation of cortical thickness (Ct.Th) and porosity (Ct.Po) at the tibia using axial transmission ultrasound was successfully validated ex vivo against site-matched micro-computed tomography. The assessment of cortical parameters based on full-spectrum guided-wave analysis might improve the prediction of bone fractures in a cost-effective and radiation-free manner.<h4>Purpose</h4>Cortical thickness (Ct.Th) and porosity (Ct.Po) are key parameters for the identification of patients with frag ...[more]