Bolzoni Villaret Andrea, Doglietto Francesco, Carobbio Andrea, Schreiber Alberto, Panni Camilla, Piantoni Enrico, Guida Giovanni, Fontanella Marco Maria, Nicolai Piero, Cassinis Riccardo
Division of Otorhinolaryngology - Head and Neck Surgery, Department of Surgical Specialties, Radiological Sciences and Public Health, University of Brescia, Brescia, Italy.
Division of Neurosurgery, Department of Surgical Specialties, Radiological Sciences and Public Health, University of Brescia, Brescia, Italy.
World Neurosurg. 2017 Sep;105:875-883. doi: 10.1016/j.wneu.2017.06.089. Epub 2017 Jun 20.
Although robotics has already been applied to several surgical fields, available systems are not designed for endoscopic skull base surgery (ESBS). New conception prototypes have been recently described for ESBS. The aim of this study was to provide a systematic literature review of robotics for ESBS and describe a novel prototype developed at the University of Brescia.
PubMed and Scopus databases were searched using a combination of terms, including Robotics OR Robot and Surgery OR Otolaryngology OR Skull Base OR Holder. The retrieved papers were analyzed, recording the following features: interface, tools under robotic control, force feedback, safety systems, setup time, and operative time. A novel hybrid robotic system has been developed and tested in a preclinical setting at the University of Brescia, using an industrial manipulator and readily available off-the-shelf components.
A total of 11 robotic prototypes for ESBS were identified. Almost all prototypes present a difficult emergency management as one of the main limits. The Brescia Endoscope Assistant Robotic holder has proven the feasibility of an intuitive robotic movement, using the surgeon's head position: a 6 degree of freedom sensor was used and 2 light sources were added to glasses that were therefore recognized by a commercially available sensor.
Robotic system prototypes designed for ESBS and reported in the literature still present significant technical limitations. Hybrid robot assistance has a huge potential and might soon be feasible in ESBS.
尽管机器人技术已应用于多个外科领域,但现有的系统并非为内镜颅底手术(ESBS)设计。最近已有针对ESBS的新概念原型被描述。本研究的目的是对用于ESBS的机器人技术进行系统的文献综述,并描述在布雷西亚大学开发的一种新型原型。
使用包括“机器人技术”或“机器人”以及“手术”或“耳鼻喉科”或“颅底”或“固定器”等术语的组合在PubMed和Scopus数据库中进行检索。对检索到的论文进行分析,记录以下特征:接口、机器人控制下的工具、力反馈、安全系统、设置时间和手术时间。在布雷西亚大学的临床前环境中,使用工业操纵器和现成的现成组件开发并测试了一种新型混合机器人系统。
共识别出11种用于ESBS的机器人原型。几乎所有原型都将困难的紧急管理作为主要限制之一。布雷西亚内窥镜辅助机器人固定器已证明利用外科医生头部位置进行直观机器人运动的可行性:使用了一个6自由度传感器,并在眼镜上添加了2个光源,因此可被市售传感器识别。
文献中报道的为ESBS设计的机器人系统原型仍存在重大技术限制。混合机器人辅助具有巨大潜力,可能很快在ESBS中可行。
