P5A-1 A Method for Improved Standardization of In Vivo Calcaneal Time-Domain Speed-of-Sound Measurements

K. Wear
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Abstract

Clinical SOS measurements exhibit a high degree of inter-system variability. Calcaneal SOS is usually computed from time-of-flight measurements of broadband ultrasound pulses that propagate through the foot. In order to minimize the effects of multi-path interference, many investigators measure time-of-flight from markers near the leading edge of the pulse. The calcaneus is a highly attenuating, highly inhomogeneous bone that distorts propagating ultrasound pulses via frequency- dependent attenuation, reverberation, dispersion, multiple scattering, and refraction. This pulse distortion can produce errors in leading-edge transit-time marker based SOS measurements. In this paper, an equation to predict dependence of time-domain SOS measurements on system parameters (center frequency and bandwidth), transit-time marker location, and bone properties (attenuation coefficient and thickness) is validated with through-transmission measurements in a bone- mimicking phantom and in 73 women in vivo, using a clinical bone sonometer. In order to test the utility of the formula for suppressing system dependence of SOS measurements, a wideband laboratory data acquisition system was used to make a second set of through-transmission measurements on the phantom. The compensation formula reduced system-dependent leading-edge transit-time marker based SOS measurements in the phantom from 41 m/s to 5 m/s and reduced transit-time marker related SOS variability in 73 women from 40 m/s to 10 m/s. The compensation formula can be used to improve standardization in bone sonometry.
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p5a - 1a体内跟骨时域声速测量改进标准化方法
临床SOS测量表现出高度的系统间变异性。跟骨SOS通常是通过测量通过足部传播的宽带超声脉冲的飞行时间来计算的。为了尽量减少多径干扰的影响,许多研究人员从靠近脉冲前沿的标记处测量飞行时间。跟骨是一种高度衰减、高度不均匀的骨,它通过频率相关的衰减、混响、色散、多次散射和折射来扭曲传播的超声脉冲。这种脉冲失真会在基于前沿传输时间标记的SOS测量中产生误差。在本文中,预测时域SOS测量对系统参数(中心频率和带宽)、传输时间标记位置和骨特性(衰减系数和厚度)的依赖性的方程通过在骨模拟模型和73名女性体内使用临床骨声压计进行透传测量来验证。为了测试该公式对抑制SOS测量的系统依赖性的效用,使用宽带实验室数据采集系统对模体进行第二组透传测量。补偿公式将幻象中基于系统相关的前沿穿越时间标记的SOS测量值从41米/秒降低到5米/秒,并将73名女性的穿越时间标记相关的SOS变异性从40米/秒降低到10米/秒。该补偿公式可用于提高骨声测量的标准化。
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