Magnetic resonance image-guided focused ultrasound robotic system with four computer-controlled axes with endorectal access designed for prostate cancer focal therapy

M. Giannakou, G. Menikou, K. Ioannides, C. Damianou
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引用次数: 3

Abstract

Background: A magnetic resonance image (MRI)-guided robotic system dedicated for prostate cancer (PC) was produced that carries a small spherically focused, single-element, ultrasonic transducer which can be potentially utilized endorectally. Materials and Methods: The developed robotic device utilizes four computer-controlled axes. An agar-based phantom was developed, which included a cavity that mimics the rectum geometry. Experiments with the system were performed in a 1.5T MRI system using the gel phantom. The transducer has a diameter of 18 mm, operates with 3 MHz, and focuses energy at 40 mm. Results: The functionality of the robot was assessed by means of magnetic resonance thermometry, demonstrating sufficient heating in both axes of operation (linear and angular). Conclusions: A functional MRI-guided robotic system was produced, which can create significant and controlled thermal exposures. The intention is to use the proposed device endorectally in the future for the focal treatment of PC.
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具有四个计算机控制轴、直肠内通道的磁共振图像引导聚焦超声机器人系统,设计用于前列腺癌局灶治疗
背景:制造了一种磁共振成像(MRI)引导的癌症(PC)机器人系统,该系统携带一个小型球形聚焦单元件超声换能器,可用于直肠内。材料和方法:开发的机器人设备利用四个计算机控制的轴。开发了一种基于琼脂的体模,其中包括一个模仿直肠几何形状的空腔。该系统的实验在1.5T MRI系统中使用凝胶体模进行。该换能器直径为18毫米,工作频率为3兆赫,能量聚焦在40毫米。结果:通过磁共振测温法评估了机器人的功能,证明在两个工作轴(线性和角度)上都有足够的加热。结论:制作了一个功能性MRI引导的机器人系统,该系统可以产生显著且可控的热暴露。其目的是在未来将所提出的装置用于前列腺癌的局部治疗。
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