超声成像医疗器械对二头肌各向异性、松弛性和非线性的临床研究

T. Krit, Mariya Begicheva, Y. Kamalov, V. Andreev
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引用次数: 0

摘要

我们应用商用超声临床诊断系统来研究人类二头肌。在8 MHz频率的b模式下显示所研究的区域。我们选择1 cm和2.5 cm深度进行横波激发。在这些深度上,聚焦的超声波产生声辐射力。由于非线性激励机制,产生了横波。计算结果表明,二头肌的剪切模量约为10kpa。负重二头肌的非线性行为在身体质量指数(BMI)较低的志愿者身上表现得更为明显。当二头肌上的负荷增加时,沿着肌肉纤维测量的剪切模量增加。观察到短头剪切模量的增长更强。剪切模量,测量方向横跨二头肌的纤维,不依赖于大小施加的载荷,并保持在卸载值。卸荷后1分钟内,二头肌趋于松弛,其剪切模量恢复初始值。我们应用商用超声临床诊断系统来研究人类二头肌。在8 MHz频率的b模式下显示所研究的区域。我们选择1 cm和2.5 cm深度进行横波激发。在这些深度上,聚焦的超声波产生声辐射力。由于非线性激励机制,产生了横波。计算结果表明,二头肌的剪切模量约为10kpa。负重二头肌的非线性行为在身体质量指数(BMI)较低的志愿者身上表现得更为明显。当二头肌上的负荷增加时,沿着肌肉纤维测量的剪切模量增加。观察到短头剪切模量的增长更强。剪切模量,测量方向横跨二头肌的纤维,不依赖于大小施加的载荷,并保持在卸载值。卸荷后1分钟内,肱二头肌趋于松弛,其剪切模量发生变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Clinical studies of biceps anisotropy, relaxation and nonlinearity with a medical device for ultrasonic imaging
We applied a commercial ultrasonic clinical diagnostic system for studies of human biceps. The investigated area was visualized in B-mode at a frequency of 8 MHz. We selected 1 cm and 2.5 cm depths for shear wave excitation. On these depths, the focused ultrasonic wave caused the acoustical radiation force. Due to nonlinear mechanism of excitation, a shear wave arose. The results we have obtained show that the biceps have the shear moduli of the order of 10 kPa. The loaded biceps demonstrated the nonlinear behavior better pronounced for the volunteer with smaller body mass index (BMI). As the load on the biceps increases, the shear modulus measured along the muscle fibers grows. The observed growth was stronger for the shear modulus of the short head. The shear modulus, measured in the direction across the fibers of the biceps, does not depend on the magnitude of the applied load and remains at the unloaded value. In 1 minute after load is removed the biceps tend to relax and its shear moduli turn their initial values.We applied a commercial ultrasonic clinical diagnostic system for studies of human biceps. The investigated area was visualized in B-mode at a frequency of 8 MHz. We selected 1 cm and 2.5 cm depths for shear wave excitation. On these depths, the focused ultrasonic wave caused the acoustical radiation force. Due to nonlinear mechanism of excitation, a shear wave arose. The results we have obtained show that the biceps have the shear moduli of the order of 10 kPa. The loaded biceps demonstrated the nonlinear behavior better pronounced for the volunteer with smaller body mass index (BMI). As the load on the biceps increases, the shear modulus measured along the muscle fibers grows. The observed growth was stronger for the shear modulus of the short head. The shear modulus, measured in the direction across the fibers of the biceps, does not depend on the magnitude of the applied load and remains at the unloaded value. In 1 minute after load is removed the biceps tend to relax and its shear moduli turn their i...
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