质子辐照下纳米液滴汽化的被动超声定位显微镜研究

Sophie V. Heymans;Gonzalo Collado-Lara;Marta Rovituso;Hendrik J. Vos;Jan D’hooge;Nico De Jong;Koen Van Den Abeele
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引用次数: 1

摘要

过热纳米液滴(NDs)最近被提出用于体内质子范围验证,因为它们在暴露于电离辐射时能够汽化成回声微泡(mb)。在之前的出版物中,使用基于脉冲回波方法的二维超声定位显微镜(ULM)检测汽化事件。在这里,我们介绍了P-ULM,一种被动版本的ULM,基于检测汽化nd发出的声特征,而不主动传输超声波。由于缺乏ND汽化触发的时间参考,每个传感器元件到达的时间差用于检索汽化ND的位置。与ULM相比,P-ULM可以连续检测和超定位稀疏辐射引起的汽化事件,对已经存在的微气泡具有固有的特异性,否则在存在血管流动的情况下会阻碍范围验证。我们通过在质子辐照的nd -幻影上交替进行主动和被动获取,从理论上和实验上评估了这两种方法的定位性能。P-ULM对蒸发的灵敏度更高,因为它检测到的事件是ULM的两倍。这两种方法在声学横向上都能以亚毫米精度获取质子距离和距离色散。在声轴方向上,尽管理论分辨率限制降低,但P-ULM以与ULM相似的精度检索质子斑点大小。重要的是,P-ULM在流动的mb存在下具有高特异性地检测汽化事件,这使得该技术成为存在流动的体内质子范围验证的候选技术。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Passive Ultrasound Localization Microscopy of Nanodroplet Vaporizations During Proton Irradiation
Superheated nanodroplets (NDs) were recently proposed for in vivo proton range verification, owing to their ability to vaporize into echogenic microbubbles (MBs) upon exposure to ionizing radiation. In a previous publication, vaporization events were detected with 2D Ultrasound Localization Microscopy (ULM) based on a pulse-echo method. Here, we introduce P-ULM, a passive version of ULM, based on the detection of acoustic signatures emitted by vaporizing NDs, without actively transmitting ultrasound. Due to the lack of a time reference for the trigger of the ND vaporization, the time differences of arrival to each transducer element are used to retrieve the position of vaporizing NDs. P-ULM, compared to ULM, can continuously detect and super-localize sparse radiation-induced vaporization events with inherent specificity against already existing microbubbles, which otherwise would hinder range verification in the presence of vascular flow. We evaluated the localization performances of both methods theoretically and experimentally, by interleaving active and passive acquisitions on ND-phantoms irradiated with protons. P-ULM offered a higher sensitivity to vaporizations, as it detected twice as many events as ULM. Both methods retrieved, in the acoustic lateral direction, the proton range and range dispersion with sub-millimeter accuracy. In the acoustic axial direction, despite a degraded theoretical resolution limit, P-ULM retrieved the proton spot size with an accuracy similar to ULM. Importantly, P-ULM detected vaporization events with high specificity in the presence of flowing MBs, which makes the technique a candidate for in vivo proton range verification in the presence of flow.
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