Applicability of a Dexterity-Enhancing Handheld Robot for 360° Endoscopic Skull Base Approaches: An Exploratory Cadaver Study.

IF 1.7 4区医学 Q3 CLINICAL NEUROLOGY

Operative Neurosurgery Pub Date : 2025-04-28 DOI:10.1227/ons.0000000000001582

Joachim Starup-Hansen, Dan Zimelewicz Oberman, John G Hanrahan, Emmanouil Dimitrakakis, Hani J Marcus, Joao Paulo Almeida

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引用次数: 0

Abstract

Background and objectives: Endoscopic skull base surgery aims to reduce surgical morbidity by minimizing tissue manipulation and exposure. However, the anatomic constraints posed by the narrow surgical corridors and constrained operative workspace present technical challenges due to reduced dexterity. This study evaluates the applicability of a novel dexterity-enhancing handheld robot for endoscopic skull base approaches.

Methods: The robotic system is comprised of interchangeable articulated end-effectors coupled to a handheld controller. Two attending skull base neurosurgeons and 2 neurosurgery residents performed 8 skull base approaches on cadaveric specimens, spanning anterior, anterolateral, lateral, posterolateral, and posterior approaches. Conventional instruments were used to expose anatomic landmarks, followed by intraoperative tasks using the handheld robot. Participants were interviewed during the procedures to assess the robot's feasibility (ability to safely reach and perform its objective of manipulating tissue at the operative site) and usefulness (ability to perform desired objectives well).

Results: The handheld robotic system was tested across 8 endoscopic skull base approaches, achieving feasibility in all cases. Superior workspace reach compared with standard instruments was demonstrated in 6 of 8 approaches. Tissue manipulation was satisfactory in all approaches. All surgeons reported that the current or a future device prototype could be useful across all 8 approaches. The most frequently cited advantage was the expanded dextrous workspace reach provided by the articulated end-effectors, particularly in approaches with long working channels, such as the endonasal approach. However, the robot encountered difficulties in transcranial approaches (trans-sylvian and subtemporal) due to the lack of shorter, curved shafts, which impaired visualization.

Conclusion: The handheld robotic system demonstrated applicability across various endoscopic skull base approaches, offering increased dextrous workspace and effective tissue manipulation capabilities. Overall, this study supports the potential of handheld robots in endoscopic skull base surgery while highlighting the need for iterative development to optimize instrument design and functionality.

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手持式机器人在360°内窥镜颅底入路中的适应性：一项探索性尸体研究。

背景和目的：内窥镜颅底手术旨在通过减少组织操作和暴露来减少手术发病率。然而，狭窄的手术通道和受限的手术工作空间构成了解剖限制，由于灵活性降低，提出了技术挑战。本研究评估了一种新型手持式灵巧增强机器人在内窥镜颅底入路中的适用性。方法：机器人系统由可互换的铰接末端执行器与手持控制器耦合组成。两名颅底神经外科主治医师和两名神经外科住院医师对尸体标本进行了8次颅底入路，包括前路、前外侧、外侧、后外侧和后路。常规器械用于显露解剖标志，随后使用手持机器人进行术中任务。在手术过程中，参与者接受了采访，以评估机器人的可行性（安全到达并执行操作部位组织目标的能力）和实用性（良好执行预期目标的能力）。结果：手持式机器人系统通过8个颅底内镜入路进行了测试，所有病例均具有可行性。与标准仪器相比，优越的工作空间到达在8种方法中的6种中得到证明。所有入路的组织操作均令人满意。所有外科医生都报告说，目前或未来的设备原型可以在所有8种方法中使用。最常见的优点是关节末端执行器提供的扩展灵活的工作空间范围，特别是在具有长工作通道的入路中，例如鼻内入路。然而，由于缺乏较短的弯曲轴，机器人在经颅入路（跨sylvian和颞下）中遇到了困难，这损害了可视化。结论：手持式机器人系统适用于各种内窥镜颅底入路，提供更灵活的工作空间和有效的组织操作能力。总的来说，这项研究支持了手持式机器人在内窥镜颅底手术中的潜力，同时强调了迭代开发以优化仪器设计和功能的必要性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Operative Neurosurgery Medicine-Neurology (clinical)

CiteScore

3.10

自引率

13.00%

发文量

530

期刊介绍： Operative Neurosurgery is a bi-monthly, unique publication focusing exclusively on surgical technique and devices, providing practical, skill-enhancing guidance to its readers. Complementing the clinical and research studies published in Neurosurgery, Operative Neurosurgery brings the reader technical material that highlights operative procedures, anatomy, instrumentation, devices, and technology. Operative Neurosurgery is the practical resource for cutting-edge material that brings the surgeon the most up to date literature on operative practice and technique