Nagoya Institute of Technology, Gokiso-cho, Showa-ku, Nagoya 466-8555, Japan.
Int J Comput Assist Radiol Surg. 2013 Jan;8(1):75-86. doi: 10.1007/s11548-012-0691-8. Epub 2012 May 15.
We are currently developing a neurosurgical robotic system that facilitates access to residual tumors and improves brain tumor removal surgical outcomes. The system combines conventional and robotic surgery allowing for a quick conversion between the procedures. This concept requires a new master console that can be positioned at the surgical bedside and be sterilized.
The master console was developed using new technologies, such as a parallel mechanism and pneumatic sensors. The parallel mechanism is a purely passive 5-DOF (degrees of freedom) joystick based on the author's haptic research. The parallel mechanism enables motion input of conventional brain tumor removal surgery with a compact, intuitive interface that can be used in a conventional surgical environment. In addition, the pneumatic sensors implemented on the mechanism provide an intuitive interface and electrically isolate the tool parts from the mechanism so they can be easily sterilized.
The 5-DOF parallel mechanism is compact (17 cm width, 19cm depth, and 15cm height), provides a 505,050 mm and 90° workspace and is highly backdrivable (0.27N of resistance force representing the surgical motion). The evaluation tests revealed that the pneumatic sensors can properly measure the suction strength, grasping force, and hand contact. In addition, an installability test showed that the master console can be used in a conventional surgical environment.
The proposed master console design was shown to be feasible for operative neurosurgery based on comprehensive testing. This master console is currently being tested for master-slave control with a surgical robotic system.
我们目前正在开发一种神经外科机器人系统,以帮助接触残留肿瘤并改善脑肿瘤切除手术的结果。该系统结合了传统手术和机器人手术,允许在两种手术之间快速转换。这一概念需要一个新的主控制台,可以放置在手术床边并进行消毒。
主控制台采用新技术开发,如并联机构和气动传感器。并联机构是一种基于作者触觉研究的纯被动 5 自由度(自由度)操纵杆。该并联机构可实现传统脑肿瘤切除手术的运动输入,具有紧凑、直观的界面,可在传统手术环境中使用。此外,安装在机构上的气动传感器提供了直观的界面,并将工具部件与机构电隔离,因此可以轻松消毒。
5 自由度并联机构体积小巧(宽 17cm,深 19cm,高 15cm),提供 505,050mm 和 90°工作空间,具有很高的反向驱动能力(0.27N 的阻力代表手术运动)。评估测试表明,气动传感器可以正确测量吸力、抓握力和手接触力。此外,安装测试表明,主控制台可以在传统的手术环境中使用。
基于综合测试,所提出的主控制台设计被证明适用于手术神经外科。该主控制台目前正在与手术机器人系统进行主从控制测试。
