超声写意弹性成像的频率复合

Yangjie Cheng, Shaoguo Cui, D. Liu, Paul Liu
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引用次数: 5

摘要

超声弹性成像是一种获取组织相对刚度信息的技术,在早期诊断中具有重要作用。传统弹性学根据门控前压缩和后压缩回波信号之间位移估计的梯度计算应变。尽管弹性成像已被证明是乳腺/前列腺肿瘤、血管硬化和肝硬化疾病的潜在诊断工具,但在弹性成像中应用频率复合来减少弹性成像的相干伪影却很少有报道。本文提出了一种新的弹性图传输侧频率复合方法,该方法将不同频率的子弹性图进行加权复合。子弹性图由组织感兴趣区域反射的相应探头中心频率回波信号对形成。由于反射过程的频率依赖性,这些子弹性图应该具有不同的散斑图案。在复合这些子弹性图后,所得到的应变图像中的散斑量减少了。通过模体实验研究了TSFC的效果,证实了在不牺牲实时超声成像的情况下,可以实现应变图像伪影的减少,并且在SNRe和CNRe方面有明显的改善。
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Frequency Compounding for Ultrasound Freehand Elastography
Ultrasound elastography is the technique of obtaining the tissue relative stiffness information, which plays an important role in early diagnosis. Conventional elastography computes the strain from the gradient of the displacement estimates between gated pre- and post-compression echo signals. Although elastography has been proven to be a potential diagnosis tool for breast/prostate tumor, vascular stiffening and hepatocirrhosis diseases, the application of frequency compounding in elastography to reduce coherent artifact of elastic imaging has rarely been reported. In this paper, a new method called Transmit-side Frequency Compounding for Elastography (TSEC) is proposed, which involves using weighted compounding of different frequency sub-elastograms. The sub-elastograms are formed from the corresponding probe center frequency echo signal pairs reflected from the tissue ROI. Due to the frequency dependent reflection process, these sub-elastograms should have different speckle pattern. Upon compounding these sub-elastograms, the amount of speckle in the resultant strain image is reduced. The effect of TSFC are investigated through phantom experiments, which confirms the reduction in strain image artifact is accomplished with no sacrifice of real-time ultrasonic imaging as well as a measurable improvement in SNRe and CNRe.
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