临床聚焦超声系统的声全息术无创血脑屏障破坏

Non-Invasive Blood-Brain Barrier Disruption Using Acoustic Holography With a Clinical Focused Ultrasound System.

出版信息

IEEE Trans Biomed Eng. 2024 Oct;71(10):3046-3054. doi: 10.1109/TBME.2024.3407678. Epub 2024 Sep 19.

DOI:10.1109/TBME.2024.3407678

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11412788/

Abstract

OBJECTIVE

Holographic methods can be used with phased array transducers to shape an ultrasound field. We tested a simple method to create holograms with a hemispherical 1024-element phased array transducer and explored how it could benefit ultrasound-mediated blood-brain barrier (BBB) disruption.

METHODS

With this method, individual acoustic simulations for each element of the transducer were simultaneously loaded into computer memory. Each element's phase was systematically modulated until the combined field matched a desired pattern. The method was evaluated with a 220 kHz transducer being tested clinically to enhance drug delivery via BBB disruption. The holograms were evaluated in a tissue-mimicking phantom and in vivo in experiments disrupting the BBB in rats and in a macaque. We also explored whether this approach could mitigate secondary reflections from the skull using simulations of transcranial focusing in clinical treatments of transcranial sonication for BBB disruption.

RESULTS

This approach can enlarge the focal volume in a patient-specific manner and could reduce the number of sonication targets needed to disrupt large volumes, improve the homogeneity of the disruption, and improve our ability to detect microbubble activity in tissues with low vascular density. Simulations suggest that the method could also mitigate secondary reflections during transcranial sonication.

摘要

目的

全息方法可与相控阵换能器一起用于形成超声场。我们测试了一种使用半球形 1024 元件相控阵换能器创建全息图的简单方法，并探讨了它如何有益于超声介导的血脑屏障（BBB）破坏。

方法

使用该方法，将换能器每个元件的单独声学模拟同时加载到计算机内存中。系统地调制每个元件的相位，直到组合场与所需模式匹配。该方法使用正在临床中测试以通过 BBB 破坏增强药物递送的 220 kHz 换能器进行了评估。在组织模拟体模中和在大鼠和猕猴体内进行了体内实验，评估了全息图。我们还通过模拟经颅聚焦，探讨了这种方法是否可以减轻颅骨的二次反射，用于经颅声处理以破坏 BBB。

结果

这种方法可以以患者特异性的方式扩大焦点体积，并且可以减少破坏大体积所需的声处理目标数量，改善破坏的均匀性，并提高我们在血管密度低的组织中检测微泡活动的能力。模拟表明，该方法还可以减轻经颅声处理过程中的二次反射。

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