Magnetically actuated dexterous tools for minimally invasive operation inside the brain

成像体模 计算机科学 镊子 开颅术 侵入性外科 生物医学工程 外科 医学 放射科
作者
Changyan He,Robert Nguyen,Haley Mayer,Lingbo Cheng,Paul H. Kang,D. Anastasia Aubeeluck,Grace M. Thiong’o,Erik Fredin,James M. Drake,Thomas Looi,Eric Diller
出处
期刊:Science robotics [American Association for the Advancement of Science]
卷期号:10 (100): eadk4249-eadk4249 被引量:11
标识
DOI:10.1126/scirobotics.adk4249
摘要

Operating in the brain for deep-seated tumors or surgical targets for epilepsy is technically demanding and normally requires a large craniotomy with its attendant risk and morbidity. Neuroendoscopic surgery has the potential to reduce risk and morbidity by permitting surgical access through a small incision with burr hole and a narrow corridor through the brain. However, current endoscopic neurosurgical tools are straight and rigid and lack dexterity, hindering their adoption for neuroendoscopic procedures. We propose a class of robotic neurosurgical tools that have magnetically actuated wristed end effectors small enough to fit through a neuroendoscope working channel. The tools were less than 3.2 millimeters in overall diameter and contained embedded permanent magnets that allowed wireless actuation with magnetic fields. Three magnetic tools are presented: a two-degrees-of-freedom (DoFs) wristed gripper, a one-DoF pivoting scalpel, and a one-DoF twisted string-actuated forceps. This work evaluated the feasibility of these tools for completing minimally invasive neurosurgical resection and cutting tasks. Experimental tests on a silicone brain phantom showed that the tools could reach the ventricle area for simulated tumor removal and access a section of the corpus callosotomy for a simulated tissue-severing procedure in epilepsy treatment. Integration of the magnetic end effectors with a concentric tube robot as a hybrid steerable surgical robotic system enabled in vivo experiments on piglets. These experiments show that wireless magnetic tools could perform essential neurosurgical tasks, including gripping, cutting, and biopsy on living brain tissue, suggesting their potential for clinical applications.
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