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On the Use of Spatial Coherence for in Situ Peak Rarefaction Pressure Estimation

机译：空间相干性在原位峰值反射压估计中的应用

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Tissue harmonic image quality has been shown to increase with elevated pressure output. The Peak Rarefaction Pressure (PRP) for a given transmit, however, is limited by the Mechanical Index (MI) guideline. We have previously demonstrated that the MI overestimates in situ PRP for tightly focused beams such as F/1.5 because it does not account for phase aberration. In this study, we propose a new spatial coherence based metric to estimate phase aberration and predict in vivo PRP. We show harmonic Short Lag Spatial Coherence (SLSC) to linearly correlate with in situ PRP with a 0.86 coefficient of determination across 11 different body walls. This correlation suggests the potential for more accurate PRP estimation in situ than the current MI scheme, allowing patient specific acoustic output.

机译：已经证明，随着输出压力的增加，组织谐波图像质量会提高。但是，给定传输的峰值反射压力（PRP）受机械指数（MI）准则的限制。先前我们已经证明，MI对于高聚焦光束（例如F / 1.5）高估了原位PRP，因为它没有考虑相差。在这项研究中，我们提出了一种新的基于空间相干性的度量，以估计相差并预测体内PRP。我们显示了谐波短时滞空间相干性（SLSC）与原位PRP线性相关，在11个不同的人体壁上的确定系数为0.86。这种相关性表明，与当前的MI方案相比，原位进行PRP估计的可能性更高，从而可以实现特定于患者的声音输出。

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《IEEE International Ultrasonics Symposium 》|2018年|1-4|共4页
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Bofeng Zhang; Will Long; Gianmarco F. Pinton; Kathryn R. Nightingale;
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Harmonic analysis; Spatial coherence; Reverberation; Clutter; Imaging; Mathematical model; Computational modeling;

机译：谐波分析;空间相干;混响;杂波;成像;数学模型;计算模型;

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2. Exploratory analysis of estimated acoustic peak rarefaction pressure, recanalization, and outcome in the transcranial ultrasound in clinical sonothrombolysis trial [J] . BarlinnK., TsivgoulisG., MolinaC.A., Journal of Clinical Ultrasound: JCU . 2013 ,第6期

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3. Spatial Resolution Enhancement Based on Peak Splitting in Low-Coherence Interferometry Signal [J] . Hongxia Zhang, Feng Wang, Chongxiang Zeng, Photonics Journal, IEEE . 2016 ,第4期

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4. On the Use of Spatial Coherence for in Situ Peak Rarefaction Pressure Estimation [C] . Bofeng Zhang, Will Long, Gianmarco F. Pinton, IEEE International Ultrasonics Symposium . 2018

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5. Noninvasive Intra-cardiac Pressure Estimation Utilizing Subharmonic Aided Pressure Estimation (SHAPE) [D] . Esposito, Cara. 2020

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6. Axial length estimation error caused by hidden double-peak on partial coherence interferometry in an eye with epiretinal membrane: a case report [O] . Yoshiyuki Kitaguchi, Shinsaku Yano, Fumi Gomi 2014

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7. The use of left ventricular end-ejection pressure and peak pressure in the estimation of the end-systolic pressure-volume relationship. [O] . A Kono, W L Maughan, K Sunagawa, 1984

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8. Estimation of Seismic Spatial Coherence and Its Application to a Regional Event [R] . Claassen, J. P. 1985

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On the Use of Spatial Coherence for in Situ Peak Rarefaction Pressure Estimation

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