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引用次数: 25

摘要

谐波成像最初是在90年代初为微泡造影剂开发的,假设组织是线性的,所有的谐波回波都是由气泡产生的。事实上,组织和气泡一样,是一种非线性介质。气泡的谐波回波源于非线性散射,而组织的谐波回波则是非线性传播的结果。组织谐波成像的临床益处是减少混响噪声和总体杂波水平,改善边界描绘,提高对比度分辨率,减少相位像差伪影。在很大程度上,这些好处是由透射超声脉冲在组织中的非线性传播特性来解释的。
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Tissue harmonic ultrasonic imaging

Harmonic imaging was originally developed for microbubble contrast agents in the early 90s under the assumption that tissue is linear and all harmonic echoes are generated by the bubbles. In fact, tissue, like bubbles, is a nonlinear medium. Whereas the harmonic echoes from bubbles have their origins in nonlinear scattering, those from tissue are a result of nonlinear propagation. The clinical benefits of tissue harmonic imaging are reduced reverberation noise and overall clutter level, improved border delineation, increased contrast resolution, and reduced phase aberration artifacts. To a large extent these benefits are explained by the properties of nonlinear propagation of the transmitted ultrasonic pulses in the tissue.

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