3D Acoustic Wave Sparsely Activated Localization Microscopy With Phase Change Contrast Agents.

IF 7 1区 医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Investigative Radiology Pub Date : 2024-05-01 Epub Date: 2023-11-20 DOI:10.1097/RLI.0000000000001033
Kai Riemer, Qingyuan Tan, Sophie Morse, Luca Bau, Matthieu Toulemonde, Jipeng Yan, Jingwen Zhu, Bingxue Wang, Laura Taylor, Marcelo Lerendegui, Qiang Wu, Eleanor Stride, Christopher Dunsby, Peter D Weinberg, Meng-Xing Tang
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Abstract

Objective: The aim of this study is to demonstrate 3-dimensional (3D) acoustic wave sparsely activated localization microscopy (AWSALM) of microvascular flow in vivo using phase change contrast agents (PCCAs).

Materials and methods: Three-dimensional AWSALM using acoustically activable PCCAs was evaluated on a crossed tube microflow phantom, the kidney of New Zealand White rabbits, and the brain of C57BL/6J mice through intact skull. A mixture of C 3 F 8 and C 4 F 10 low-boiling-point fluorocarbon gas was used to generate PCCAs with an appropriate activation pressure. A multiplexed 8-MHz matrix array connected to a 256-channel ultrasound research platform was used for transmitting activation and imaging ultrasound pulses and recording echoes. The in vitro and in vivo echo data were subsequently beamformed and processed using a set of customized algorithms for generating 3D super-resolution ultrasound images through localizing and tracking activated contrast agents.

Results: With 3D AWSALM, the acoustic activation of PCCAs can be controlled both spatially and temporally, enabling contrast on demand and capable of revealing 3D microvascular connectivity. The spatial resolution of the 3D AWSALM images measured using Fourier shell correlation is 64 μm, presenting a 9-time improvement compared with the point spread function and 1.5 times compared with half the wavelength. Compared with the microbubble-based approach, more signals were localized in the microvasculature at similar concentrations while retaining sparsity and longer tracks in larger vessels. Transcranial imaging was demonstrated as a proof of principle of PCCA activation in the mouse brain with 3D AWSALM.

Conclusions: Three-dimensional AWSALM generates volumetric ultrasound super-resolution microvascular images in vivo with spatiotemporal selectivity and enhanced microvascular penetration.

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具有相变造影剂的三维声波稀疏激活定位显微镜。
目的:本研究的目的是利用相变造影剂(PCCAs)展示体内微血管流动的三维(3D)声波稀疏激活定位显微镜(AWSALM),以及C57BL/6J小鼠的大脑。使用C3F8和C4F10低沸点氟碳气体的混合物在适当的活化压力下生成PCCA。连接到256通道超声研究平台的多路复用8MHz矩阵阵列用于传输激活和成像超声脉冲以及记录回波。随后使用一组定制算法对体外和体内回波数据进行波束成形和处理,用于通过定位和跟踪激活的造影剂来生成3D超分辨率超声图像。结果:使用3D AWSALM,PCCA的声学激活可以在空间和时间上得到控制,能够根据需要进行对比,并能够揭示3D微血管的连通性。使用傅立叶壳层相关测量的3D AWSALM图像的空间分辨率为64μm,与点扩散函数相比提高了9倍,与波长的一半相比提高了1.5倍。与基于微气泡的方法相比,在相似浓度下,更多的信号定位在微血管中,同时在较大的血管中保持稀疏性和较长的轨迹。经颅成像证明了3D AWSALM在小鼠大脑中激活PCCA的原理。结论:三维AWSALM产生具有时空选择性和增强微血管穿透性的体内体积超声超分辨率微血管图像。
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来源期刊
Investigative Radiology
Investigative Radiology 医学-核医学
CiteScore
15.10
自引率
16.40%
发文量
188
审稿时长
4-8 weeks
期刊介绍: Investigative Radiology publishes original, peer-reviewed reports on clinical and laboratory investigations in diagnostic imaging, the diagnostic use of radioactive isotopes, computed tomography, positron emission tomography, magnetic resonance imaging, ultrasound, digital subtraction angiography, and related modalities. Emphasis is on early and timely publication. Primarily research-oriented, the journal also includes a wide variety of features of interest to clinical radiologists.
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