Enhancing Passive Cavitation Imaging Using p^th Root Compression Delay, Sum, and Integrate Beamforming: In Vitro and in Vivo Studies.

IF 4.4 2区医学 Q2 ENGINEERING, BIOMEDICAL

IEEE Transactions on Biomedical Engineering Pub Date : 2025-02-24 DOI:10.1109/TBME.2025.3540101

Abhinav Kumar Singh, Pankaj Warbal, Katia Flores Basterrechea, Kenneth Bader, Himanshu Shekhar

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引用次数: 0

Abstract

Objective: Passive cavitation imaging (PCI) derived metrics can serve as surrogates for the outcome of bubble-mediated therapies. Passive cavitation imaging is limited by poor axial resolution and side lobe artifacts, particularly when algorithms such as delay, sum and integrate (DSI) beamforming are used. Methods to improve PCI performance remain an active research area given the need to balance imaging performance with computational complexity. The current study evaluated p^th root compression delay, sum and integrate (prDSI) beamforming for PCI using in vitro and in vivo cavitation data collected with insonation parameters relevant to drug delivery, histotripsy ablation, and combined histotripsy and drug therapy.

Methods: First, PCI was performed on a flow phantom perfused with ultrasound contrast agent (SonoVue) exposed to focused ultrasound. Next, the performance of prDSI was assessed on histotripsy bubble clouds generated in a red blood cell (RBC)-doped phantom. Finally, PCI was performed on data collected during histotripsy ablation of a thrombus in the femoral vein of a pig. Acoustic emissions generated by cavitation were recorded and processed with DSI, robust Capon, and prDSI beamforming. The imaging performance was evaluated using the axial width, signal-to-interference ratio, and binary statistical analysis-derived metrics.

Results: The prDSI approach demonstrated comparable imaging performance to RCB, both in vitro and in vivo based on binary statistical metrics. Considerable improvement was observed in axial width and signal-to- interference ratio, while incurring only a moderately higher computational cost relative to standard DSI beamforming.

Conclusions: The findings of this study demonstrate the potential of prDSI for monitoring of cavitation-mediated therapies.

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利用pth根压缩延迟、Sum和集成波束形成增强被动空化成像：体外和体内研究。

目的：被动空化成像（PCI）衍生指标可以作为气泡介导治疗结果的替代指标。被动空化成像受到轴向分辨率差和旁瓣伪影的限制，特别是当使用延迟、求和和积分（DSI）波束形成算法时。鉴于需要平衡成像性能和计算复杂性，提高PCI性能的方法仍然是一个活跃的研究领域。本研究利用体外和体内空化数据，结合与药物递送、组织切片消融、组织切片和药物联合治疗相关的超声参数，评估pth根压缩延迟、sum和积分（prDSI）波束形成对PCI的影响。方法：首先，在超声造影剂（SonoVue）灌注的血流幻影暴露于聚焦超声下行PCI。接下来，prDSI的性能在红细胞（RBC）掺杂的幻影中产生的组织学泡云上进行评估。最后，对猪股静脉血栓组织切片消融过程中收集的数据进行PCI。利用DSI、稳健Capon和prDSI波束形成技术对空化产生的声发射进行了记录和处理。成像性能通过轴向宽度、信干涉比和二元统计分析指标进行评估。结果：基于二元统计指标，prDSI方法在体外和体内均表现出与RCB相当的成像性能。在轴宽和信干涉比方面观察到相当大的改进，而相对于标准DSI波束形成，只产生适度较高的计算成本。结论：本研究的发现证明了prDSI在监测空化介导治疗方面的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Biomedical Engineering 工程技术-工程：生物医学

CiteScore

9.40

自引率

4.30%

发文量

880

审稿时长

2.5 months

期刊介绍： IEEE Transactions on Biomedical Engineering contains basic and applied papers dealing with biomedical engineering. Papers range from engineering development in methods and techniques with biomedical applications to experimental and clinical investigations with engineering contributions.