7C-6 Motion Artifact Reduction by ECG Gating in Ultrasound Induced Thermal Strain Imaging

K. Kim, S.-W. Huang, R. Olafsson, C. Jia, R. Witte, M. O’Donnell
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引用次数: 9

Abstract

Cardiac motion related artifact in ultrasound induced thermal strain imaging (TSI) was reduced in-vitro and in-vivo using ECG gating. Tissue motion due to the heart beat is a major challenge for in-vivo TSI application, especially for cardiovascular systems. Temporal variation of the relative position between the transducer and the artery will induce decorrelation in speckle tracking. Tissue deformation produces mechanical strains directly. Thermal strains are equivalent to their motion-induced mechanical counterparts and are typically an order of magnitude smaller. Consequently, effective reduction of motion artifacts is critical for clinical use of TSI. Using ECG signals to trigger array firing, cardiac periodicity can be fully utilized to minimize motion artifacts, allowing thermal strains to accumulate over multiple cardiac cycles with little distortion. TSI gated by the lumen pressure signal on an artery phantom (rubber) connected to a pulsatile pumping system compares well with TSI when the phantom was immobile for the same heating/imaging sequences. An in-vivo test was performed on a rabbit femoral artery under local animal protocol. The animal's ECG gated a similar pulse sequence used for the phantom. The in-vivo temperature rise in the femoral arterial wall was also estimated. This estimation is well above the background noise in TSI due to speckle tracking error or/and any possible residual vibration. Breathing motion artifacts can be minimized in the clinic through a breath hold.
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超声诱导热应变成像中ECG门控减少7C-6运动伪影
体外和体内应用心电门控降低超声诱导热应变成像(TSI)中与心脏运动相关的伪影。由于心脏跳动引起的组织运动是活体TSI应用的主要挑战,特别是在心血管系统中。在散斑跟踪中,传感器与动脉之间相对位置的时间变化会引起去相关。组织变形直接产生机械应变。热应变与运动引起的机械应变相当,通常要小一个数量级。因此,有效减少运动伪影对于TSI的临床应用至关重要。使用心电信号触发阵列放电,心脏周期性可以充分利用,以减少运动伪影,允许热应变积累在多个心脏周期几乎没有失真。在相同的加热/成像序列下,由连接到脉动泵系统的动脉模体(橡胶)上的管腔压力信号门控的TSI与模体静止时的TSI相比效果更好。根据局部动物方案,在兔股动脉上进行了体内试验。这只动物的心电图显示了一个与幻像相似的脉冲序列。估计了股动脉壁的体内温升。在TSI中,由于散斑跟踪误差或/和任何可能的残余振动,该估计远远高于背景噪声。在诊所里,通过屏气可以将呼吸运动伪影降到最低。
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