首页 /研究 /Novel technique of a multifunctional electrosurgical system for minimally invasive surgery
SURGICAL

Novel technique of a multifunctional electrosurgical system for minimally invasive surgery

David R. Mittelstein, Jiahan Deng, Rachel Kohan, Mojdeh Sadeghi, Jean‐Michel I. Maarek, Gabriel Zada

发表年份
2016
引用次数
5

摘要

Bipolar electrosurgery in the minimally invasive endoscopic surgery theater has been traditionally limited to the use of standard bipolar forceps, which are minimally versatile, have a limited range of motion, and are associated with visualization and handling constraints. The authors designed a novel surgical device system in which commonly used surgical instruments (suction, microscissors, micrograspers, and dissectors) co-function as individually insulated and modular electrodes for bipolar electrosurgery. In this feasibility study, the successful use of these prototypes in endonasal endoscopic transsphenoidal surgery was demonstrated on 2 human cadavers, and in an in vivo arterial coagulation model on 2 live rats. This prototype system provided improved bipolar instrument mobility, minimized the requirement to exchange surgical instruments when performing electrosurgery, and allowed for new maneuvers that optimized surgical workflow, such as the ability to suction blood and smoke while cauterizing. This multifunctional bipolar cautery system may improve surgical efficiency and workflow and facilitate surgical microdissection and electrocautery during minimally invasive, endoscopic, robotic or traditional open surgery.

关键词

MedicineElectrosurgerySurgeryForcepsInvasive surgeryElectrocoagulationMinimally invasive proceduresBiomedical engineering

相关论文

查看 SURGICAL 分类全部论文