Cardiorespiratory-gated cardiac proton radiotherapy using a novel ultrasound guidance system

IF 2.7 3区医学 Q3 ONCOLOGY

Clinical and Translational Radiation Oncology Pub Date : 2024-12-21 DOI:10.1016/j.ctro.2024.100904

Keith A Cengel , Zayne Belal , Michele M Kim , Sarah Hagan , Saskia Camps , Alexander Kalinin , Weihow Hsue , Eric Diffenderfer , Adriano Garonna , Cory Tschabrunn

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Abstract

Cardiac stereotactic body radiotherapy is a promising noninvasive treatment for patients with refractory ventricular tachycardia. With the aim to prove feasibility of a novel image guided radiotherapy and heart motion gating device, cardiac proton radiotherapy was performed using a porcine model. Using a novel adaptation of γ − H2AX tissue staining techniques, we have been able to localize a radiation beam in large animal tissue to assess targeting accuracy within a defined field. Cardiorespiratory-gated irradiations of the animals were successfully completed and analysis of the γ-H2AX staining intensity of the excised heart after radiation demonstrated radiotherapy was delivered close to or within the expected region. We simulated the irradiated volumes under different gating scenarios, showing significant reduction when using combined cardiorespiratory gating. The results of this study show the feasibility of proton irradiation of the heart left ventricle with a novel ultrasound based cardiorespiratory gating technology with the benefit of reduced irradiation volumes and increased healthy tissue sparing.

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一种新型超声引导系统的心肺门控心脏质子放疗。

心脏立体定向放射治疗是治疗难治性室性心动过速的一种很有前途的无创治疗方法。为了证明一种新的图像引导放射治疗和心脏运动门控装置的可行性，我们在猪模型上进行了心脏质子放疗。使用一种新的γ - H2AX组织染色技术，我们已经能够在大型动物组织中定位辐射束，以评估特定领域内的靶向准确性。动物的心肺门控照射成功完成，放射后切除心脏的γ-H2AX染色强度分析表明放射治疗接近或在预期区域内。我们模拟了不同门控方案下的辐照体积，显示使用联合心肺门控时辐照体积显著减少。本研究结果表明，利用一种基于超声的新型心肺门控技术对心脏左心室进行质子照射的可行性，具有减少照射量和增加健康组织保留的优点。

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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