Transient ultrasound elastography for breast cancer diagnosis using impulsive radiation force: an in vitro study

IEEE Ultrasonics Symposium, 2005. Pub Date : 2005-09-18 DOI:10.1109/ULTSYM.2005.1603109

D. Melodelima, J. Bamber, F. Duck, J. Shipley

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Abstract

The use of impulsive acoustic radiation force for strain imaging was investigated. A focused ultrasound transducer was used to apply localised radiation force to a small volume of tissue mimic (100 mm 3 ) for durations of 8 ms. A conventional real-time ultrasound imaging probe was used to obtain echo signals. The resulting strains were mapped using ultrasound correlation-based methods. The instantaneous strain immediately following cessation of the radiation force was observed at depth within homogeneous gels and within stiff inclusions, and was seen to vary approximately linearly with the Young's modulus of the material. The highly localised and transient strain that is produced may permit the sensing of variations in tissue elastic properties that are difficult to detect with conventional elastography, due to greater independence from boundary conditions. For example, the characteristic, bi-directional, high strain artefacts due to stress concentration, often seen with static elastography at tissue-inclusion interfaces, do not appear using the transient radiation force strain imaging technique.

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瞬态超声弹性成像用于脉冲辐射力诊断乳腺癌的体外研究

研究了脉冲声辐射力在应变成像中的应用。聚焦超声换能器用于向小体积组织模拟物(100 mm 3)施加局部辐射力，持续时间为8 ms。采用常规实时超声成像探头获取回波信号。利用超声相关法绘制应变图。在均匀凝胶和坚硬夹杂物的深度处，观察到辐射力停止后的瞬时应变，并观察到瞬时应变与材料的杨氏模量近似线性变化。所产生的高度局域和瞬态应变可能允许感知组织弹性特性的变化，这是传统弹性成像难以检测到的，因为它与边界条件有更大的独立性。例如，由于应力集中而导致的双向高应变伪影，通常在组织-包裹体界面处的静态弹性成像中可以看到，但在瞬态辐射力应变成像技术中不会出现。

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IEEE Ultrasonics Symposium, 2005.

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