Brain-Mimicking Phantom for Photoablation and Visualization.

Ravi Prakash, Kent K Yamamoto, Siobhan R Oca, Weston Ross, Patrick J Codd
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Abstract

While the use of tissue-mimicking (TM) phantoms has been ubiquitous in surgical robotics, the translation of technology from laboratory experiments to equivalent intraoperative tissue conditions has been a challenge. The increasing use of lasers for surgical tumor resection has introduced the need to develop a modular, low-cost, functionally relevant TM phantom to model the complex laser-tissue interaction. In this paper, a TM phantom with mechanically and thermally similar properties as human brain tissue suited for photoablation studies and subsequent visualization is developed. The proposed study demonstrates the tuned phantom response to laser ablation for fixed laser power, time, and angle. Additionally, the ablated crater profile is visualized using optical coherence tomography (OCT), enabling high-resolution surface profile generation.

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用于光消融和可视化的脑模拟幻影。
虽然在外科机器人中使用组织模拟(TM)模型已经无处不在,但将技术从实验室实验转化为等效的术中组织条件一直是一个挑战。外科肿瘤切除术中越来越多地使用激光,这就需要开发一种模块化、低成本、功能相关的TM模体来模拟复杂的激光与组织的相互作用。本文开发了一种具有与人脑组织相似的机械和热特性的TM模型,适合于光消融研究和随后的可视化。本研究展示了在固定的激光功率、时间和角度下,可调谐的幻体对激光烧蚀的响应。此外,使用光学相干断层扫描(OCT)可以可视化烧蚀的陨石坑轮廓,从而实现高分辨率的表面轮廓生成。
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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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