Department of Advanced Robotics, Istituto Italiano di Tecnologia, Genoa, Italy.
Laryngoscope. 2014 Aug;124(8):1887-94. doi: 10.1002/lary.24566. Epub 2014 Jan 24.
OBJECTIVES/HYPOTHESIS: To introduce a novel computerized surgical system for improved usability, intuitiveness, accuracy, and controllability in robot-assisted laser phonomicrosurgery.
Pilot technology assessment.
The novel system was developed involving a newly designed motorized laser micromanipulator, a touch-screen display, and a graphics stylus. The system allows the control of a CO2 laser through interaction between the stylus and the live video of the surgical area. This empowers the stylus with the ability to have actual effect on the surgical site. Surgical enhancements afforded by this system were established through a pilot technology assessment using randomized trials comparing its performance with a state-of-the-art laser microsurgery system. Resident surgeons and medical students were chosen as subjects in performing sets of trajectory-following exercises. Image processing-based techniques were used for an objective performance assessment. A System Usability Scale-based questionnaire was used for the qualitative assessment.
The computerized interface demonstrated superiority in usability, accuracy, and controllability over the state-of-the-art system. Significant ease of use and learning experienced by the subjects were demonstrated by the usability score assigned to the two compared interfaces: computerized interface = 83.96% versus state-of-the-art = 68.02%. The objective analysis showed a significant enhancement in accuracy and controllability: computerized interface = 90.02% versus state-of-the-art = 75.59%.
The novel system significantly enhances the accuracy, usability, and controllability in laser phonomicrosurgery. The design provides an opportunity to improve the ergonomics and safety of current surgical setups.
目的/假设:介绍一种新型计算机化手术系统,以提高机器人辅助激光语音显微手术的可用性、直观性、准确性和可控性。
试点技术评估。
新型系统的开发涉及新设计的电动激光微操纵器、触摸屏显示器和图形手写笔。该系统允许通过手写笔与手术区域的实时视频之间的交互来控制 CO2 激光。这使手写笔能够对手术部位产生实际影响。通过使用随机试验将其性能与最先进的激光显微手术系统进行比较,对该系统进行了试点技术评估,从而确定了手术增强功能。选择住院医师和医学生作为进行一系列轨迹跟踪练习的受试者。使用基于图像处理的技术进行客观性能评估。使用基于系统可用性量表的问卷进行定性评估。
与最先进的系统相比,计算机化界面在可用性、准确性和可控性方面具有优势。通过分配给两个比较界面的可用性得分,证明了受试者具有明显的易用性和学习能力:计算机化界面=83.96%,而最先进的系统=68.02%。客观分析显示准确性和可控性有显著提高:计算机化界面=90.02%,而最先进的系统=75.59%。
新型系统显著提高了激光语音显微手术的准确性、可用性和可控性。该设计为改善当前手术设备的人体工程学和安全性提供了机会。
