Abstract

Most bone loss during the development of osteoporosis occurs in cortical bone at the peripheral skeleton. Decreased cortical thickness (Ct.Th) and the prevalence of large pores at the tibia are associated with reduced bone strength at the hip. Ct.Th and cortical sound velocity, i.e., a surrogate marker for changes of cortical porosity (Ct.Po), are key biomarkers for the identification of patients at high fracture risk. In this study, we have developed a method using a conventional ultrasound array transducer to determine thickness (Ct.Th) and the compressional sound velocity propagating in the radial bone direction (Ct. ν11 ) using a refraction-corrected multifocus imaging approach. The method was validated in-silico on porous bone plate models using a 2-D finite-difference time-domain method and ex vivo on plate-shaped plastic reference materials and on plate-shaped cortical bovine tibia samples. Plane-wave pulse-echo measurements provided reference values to assess precision and accuracy of our method. In-silico results revealed the necessity to account for inclination-dependent transmission losses at the bone surface. Moreover, the dependence of Ct. ν11 on both porosity and pore density was observed. Ct.Th and Ct. ν11 obtained ex vivo showed a high correlation ) with reference values. The ex-vivo accuracy and precision for Ct. ν11 were 29.9 m/s and 0.94%, respectively, and those for Ct.Th were 0.04 mm and 1.09%, respectively. In conclusion, this numerical and experimental study demonstrates an accurate and precise estimation of Ct.Th and Ct. ν11 . The developed multifocus technique may have high clinical potential to improve fracture risk prediction using noninvasive and nonionizing conventional ultrasound technology with image guidance.

Highlights

  • O STEOPOROSIS (OP) is one of the most important global health problems of our aging population, which reduces mobility and quality of life, increases mortality, Manuscript received June 26, 2019; accepted October 16, 2019

  • The peak position and amplitude of the backside reflection varied depending on the pore properties

  • This study describes a simple method that allows the simultaneous estimation of thickness and compressional sound velocity in plate-shaped cortical bone samples using a phased-array ultrasound

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Summary

Introduction

O STEOPOROSIS (OP) is one of the most important global health problems of our aging population, which reduces mobility and quality of life, increases mortality, Manuscript received June 26, 2019; accepted October 16, 2019. Date of publication October 24, 2019; date of current version February 25, 2020. Sound Project under Grant DFG RA1380/9-1, Grant GL289/8-1, and. Grant ANR-14-CE35-0030-01, and in part by the BMBF KMU-Innovative. Project through German Federal Ministry of Education and Research under Grant 13GW0234C. Raum are with the Berlin Brandenburg Center for Regenerative Therapies, Charité—Universitätsmedizin. J. Du was with the Berlin Brandenburg Center for Regenerative

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