Towards a Robotically Steerable Laser Ablation Probe.

Julio Adrian Ceja, Saeed Rezaeian, J Rodrigo Vélez-Cordero, Juan Hernández-Cordero, Behnam Badie, Jun Sheng
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Abstract

In this paper, we present a robotically steerable laser ablation probe with application to interstitial thermal therapy. Existing laser interstitial thermal therapy (LITT) methods utilize a straight probe to deliver laser energy around the tip or to the side of the tip. These methods are inadequate to provide effective treatment for large, irregularly shaped tumors. Our robotic probe can be manipulated inside soft tissue to perform ablation at multiple locations, thus enabling conformable ablation for large and complicated tumors. Instead of directly firing laser into soft tissue, a Polydimethylsiloxane (PDMS)/Carbon nanoparticles (CNPs) mixture hosts a multi-mode optical fiber at the probe tip to work as a heater when laser is activated to improve the procedural safety. This paper presents the design and fabrication of the robotic ablation probe, simulation of laser thermal transformation using finite element analysis, and experimental studies that characterize the robot motion and heating effects and demonstrate in vitro ablation.

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实现可机器人转向的激光烧蚀探针
在本文中,我们介绍了一种应用于间质热疗的机器人可转向激光烧蚀探头。现有的激光间质热疗(LITT)方法是利用直探针在针尖周围或针尖一侧输送激光能量。这些方法不足以对形状不规则的大型肿瘤进行有效治疗。我们的机器人探针可在软组织内操作,在多个位置进行消融,从而实现对大型复杂肿瘤的适形消融。探针顶端的聚二甲基硅氧烷(PDMS)/碳纳米颗粒(CNPs)混合物不直接向软组织发射激光,而是在激光启动时在探针顶端安装一根多模光纤作为加热器,以提高手术安全性。本文介绍了机器人消融探针的设计和制造、利用有限元分析模拟激光热转换、描述机器人运动和加热效果的实验研究以及体外消融演示。
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Towards a Robotically Steerable Laser Ablation Probe. A Data-Driven Model with Hysteresis Compensation for I2RIS Robot. Artificial intelligence (AI) for minimally invasive robotics Optical Fiber -Based Needle Shape Sensing: Three-channel Single Core vs. Multicore Approaches. Brain-Mimicking Phantom for Photoablation and Visualization.
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