A navigated, robot-driven laser craniotomy tool for frameless depth electrode implantation. An in-vivo recovery animal study

IF 2.9 Q2 ROBOTICS Frontiers in Robotics and AI Pub Date : 2024-06-12 DOI:10.3389/frobt.2024.1355409
F. Winter, Patrick Pilz, Anne M. Kramer, Daniel Beer, Patrick Gono, M. Morawska, Johannes Hainfellner, Sigrid Klotz, M. Tomschik, Ekaterina Pataraia, Gilbert Hangel, C. Dorfer, Karl Roessler
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Abstract

Objectives: We recently introduced a frameless, navigated, robot-driven laser tool for depth electrode implantation as an alternative to frame-based procedures. This method has only been used in cadaver and non-recovery studies. This is the first study to test the robot-driven laser tool in an in vivo recovery animal study.Methods: A preoperative computed tomography (CT) scan was conducted to plan trajectories in sheep specimens. Burr hole craniotomies were performed using a frameless, navigated, robot-driven laser tool. Depth electrodes were implanted after cut-through detection was confirmed. The electrodes were cut at the skin level postoperatively. Postoperative imaging was performed to verify accuracy. Histopathological analysis was performed on the bone, dura, and cortex samples.Results: Fourteen depth electrodes were implanted in two sheep specimens. Anesthetic protocols did not show any intraoperative irregularities. One sheep was euthanized on the same day of the procedure while the other sheep remained alive for 1 week without neurological deficits. Postoperative MRI and CT showed no intracerebral bleeding, infarction, or unintended damage. The average bone thickness was 6.2 mm (range 4.1–8.0 mm). The angulation of the planned trajectories varied from 65.5° to 87.4°. The deviation of the entry point performed by the frameless laser beam ranged from 0.27 mm to 2.24 mm. The histopathological analysis did not reveal any damage associated with the laser beam.Conclusion: The novel robot-driven laser craniotomy tool showed promising results in this first in vivo recovery study. These findings indicate that laser craniotomies can be performed safely and that cut-through detection is reliable.
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用于无框架深度电极植入的导航机器人驱动激光开颅工具。体内复苏动物研究
目的:我们最近推出了一种无框架、导航、机器人驱动的激光工具,用于深度电极植入,以替代基于框架的手术。这种方法只在尸体和非康复研究中使用过。这是首次在体内康复动物实验中测试机器人驱动激光工具的研究:方法:术前进行计算机断层扫描(CT),以规划绵羊标本的手术轨迹。使用无框架、导航、机器人驱动的激光工具进行毛刺孔开颅手术。在确认切穿检测后植入深度电极。术后在皮肤水平切开电极。术后进行成像以验证准确性。对骨、硬脑膜和皮质样本进行组织病理学分析:在两只绵羊标本中植入了 14 个深度电极。麻醉方案未显示任何术中异常。一只绵羊在手术当天被安乐死,另一只绵羊存活了一周,没有出现神经功能障碍。术后核磁共振成像和 CT 显示没有脑内出血、梗塞或意外损伤。平均骨厚度为 6.2 毫米(范围为 4.1-8.0 毫米)。计划轨迹的角度从65.5°到87.4°不等。无框架激光束进入点的偏差范围为 0.27 毫米至 2.24 毫米。组织病理学分析未发现任何与激光束相关的损伤:结论:新型机器人驱动激光开颅工具在首次活体恢复研究中显示出良好的效果。这些研究结果表明,激光开颅手术可以安全地进行,而且切口检测是可靠的。
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来源期刊
CiteScore
6.50
自引率
5.90%
发文量
355
审稿时长
14 weeks
期刊介绍: Frontiers in Robotics and AI publishes rigorously peer-reviewed research covering all theory and applications of robotics, technology, and artificial intelligence, from biomedical to space robotics.
期刊最新文献
Cybernic robot hand-arm that realizes cooperative work as a new hand-arm for people with a single upper-limb dysfunction. Advancements in the use of AI in the diagnosis and management of inflammatory bowel disease. Remote science at sea with remotely operated vehicles. A pipeline for estimating human attention toward objects with on-board cameras on the iCub humanoid robot. Leveraging imitation learning in agricultural robotics: a comprehensive survey and comparative analysis.
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