颅形相控阵在经颅聚焦超声治疗中的应用。

Implementation of a Skull-Conformal Phased Array for Transcranial Focused Ultrasound Therapy.

出版信息

IEEE Trans Biomed Eng. 2021 Nov;68(11):3457-3468. doi: 10.1109/TBME.2021.3077802. Epub 2021 Oct 19.

DOI:10.1109/TBME.2021.3077802

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11979958/

Abstract

OBJECTIVE

To implement a skull-conformal phased array for ultrasound-guided transcranial focused ultrasound therapy with improved patient comfort.

METHODS

Using patient-specific computed tomography and MRI neuroimaging data, tightly-conforming helmet scaffolds were designed computationally. The helmet scaffolds were designed to hold reusable transducer modules at near-normal incidence in an optimal configuration for the treatment location(s) of interest. Numerical simulations of trans-skull ultrasound propagation were performed to evaluate different conformal array designs and to compare with hemispherical arrays similar to those employed clinically. A 4096-element phased array was constructed by 3D printing a helmet scaffold optimised for an ex vivo human skullcap, and its performance was evaluated via benchtop and in vivo experiments.

RESULTS

Acoustic field measurements confirmed the system's ability to focus through human skull bone using simulation-based transcranial aberration corrections. Preliminary in vivo testing demonstrated safe trans-human skull blood-brain barrier (BBB) opening in rodents.

CONCLUSION

Patient-specific conformal ultrasound phased arrays appear to be a feasible and safe approach for conducting transcranial BBB opening procedures.

SIGNIFICANCE

Skull-conformal phased arrays stand to improve patient comfort and have the potential to accelerate the adoption of transcranial FUS therapy by improving access to the technology.

摘要

目的

开发一种颅骨适形相控阵，用于超声引导经颅聚焦超声治疗，以提高患者舒适度。

方法

使用患者特定的计算机断层扫描和磁共振神经影像学数据，通过计算设计紧密贴合的头盔支架。头盔支架设计用于以接近正常入射的方式保持可重复使用的换能器模块，以形成治疗部位的最佳配置。对跨颅骨超声传播进行数值模拟，以评估不同的适形阵列设计，并与临床中使用的类似的半球形阵列进行比较。通过 3D 打印优化的头盔支架构建了一个 4096 元的相控阵，用于离体人颅骨，并通过台架和体内实验评估其性能。

结果

声场测量结果证实了该系统通过基于模拟的经颅像差校正穿透人颅骨的能力。初步的体内试验证明了在啮齿动物中安全地进行跨人颅骨血脑屏障（BBB）开放的能力。

结论

患者特异性适形超声相控阵似乎是一种可行且安全的方法，可用于进行经颅 BBB 开放手术。

意义

颅骨适形相控阵有望提高患者舒适度，并有可能通过改善对该技术的访问，加速经颅聚焦超声治疗的采用。

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