Yi-Qi Chen1,2, Ji-Wei Tao1, Ling-Ya Su2, Liang Li2, Shi-Xin Zhao1, Yang Yang3, Li-Jun Shen4,5. 1. Eye Hospital of Wenzhou Medical University, Hangzhou, Zhejiang, China. 2. Wenzhou Medical University, Wenzhou, Zhejiang, China. 3. School of Mechanical Engineering and Automation, Beihang University, Beijing, China. 4. Eye Hospital of Wenzhou Medical University, Hangzhou, Zhejiang, China. slj20101119@163.com. 5. Wenzhou Medical University, Wenzhou, Zhejiang, China. slj20101119@163.com.
Abstract
PURPOSE: The purpose of the study was to describe the development of a robotic aided surgical system named RVRMS (robotic vitreous retinal microsurgery system) and to evaluate the capability for using it to perform vitreoretinal surgery. METHODS: The RVRMS was designed and built to include the key components of two independent arms. End-effectors of each arm fix various surgical instruments and perform intraocular manipulation. To evaluate properly the RVRMS, robot-assisted 23-gauge surgical tasks including endolaser for retinal photocoagulation, pars plana vitrectomy (PPV), retinal foreign body removal and retinal vascular cannulation were performed in two different sizes of an animal model. Endolaser was performed in the eye of a living Irish rabbit and the other tasks were done in a harvested porcine eye. For each evaluation, the duration and the successful completion of the task was assessed. RESULTS: Robot-assisted vitreoretinal operations were successfully performed in nine rabbit eyes and 25 porcine eyes without any iatrogenic complication such as retinal tear or retinal detachment. In the task of using an endolaser, three rows of burns around the induced retinal hole were performed in nine rabbit eyes with half size intervals of laser spots. Nine procine eyes underwent PPV followed by successful posterior vitreous detachment (PVD) induction assisted with triamcinolone acetonide (TA). Nine porcine eyes completed removal of a fine stainless steel wire, which was inserted into prepared retinal tissue. Finally, retinal vascular cannulation with a piece of stainless steel wire (6mm length, 45 μm pipe diameter and one end cut to ∼30° slope) was successfully achieved in seven porcine eyes. The average duration of each procedure was 10.91±1.22 min, 11.68±2.11min, 5.90±0.46 min and 13.5±6.2 min, respectively. CONCLUSIONS: Maneuverability, accuracy and stability of robot-assisted vitreoretinal microsurgery using the RVRMS were demonstrated in this study. Wider application research of robotic surgery and improvement of a robotic system should be continued.
PURPOSE: The purpose of the study was to describe the development of a robotic aided surgical system named RVRMS (robotic vitreous retinal microsurgery system) and to evaluate the capability for using it to perform vitreoretinal surgery. METHODS: The RVRMS was designed and built to include the key components of two independent arms. End-effectors of each arm fix various surgical instruments and perform intraocular manipulation. To evaluate properly the RVRMS, robot-assisted 23-gauge surgical tasks including endolaser for retinal photocoagulation, pars plana vitrectomy (PPV), retinal foreign body removal and retinal vascular cannulation were performed in two different sizes of an animal model. Endolaser was performed in the eye of a living Irish rabbit and the other tasks were done in a harvested porcine eye. For each evaluation, the duration and the successful completion of the task was assessed. RESULTS: Robot-assisted vitreoretinal operations were successfully performed in nine rabbit eyes and 25 porcine eyes without any iatrogenic complication such as retinal tear or retinal detachment. In the task of using an endolaser, three rows of burns around the induced retinal hole were performed in nine rabbit eyes with half size intervals of laser spots. Nine procine eyes underwent PPV followed by successful posterior vitreous detachment (PVD) induction assisted with triamcinolone acetonide (TA). Nine porcine eyes completed removal of a fine stainless steel wire, which was inserted into prepared retinal tissue. Finally, retinal vascular cannulation with a piece of stainless steel wire (6mm length, 45 μm pipe diameter and one end cut to ∼30° slope) was successfully achieved in seven porcine eyes. The average duration of each procedure was 10.91±1.22 min, 11.68±2.11min, 5.90±0.46 min and 13.5±6.2 min, respectively. CONCLUSIONS: Maneuverability, accuracy and stability of robot-assisted vitreoretinal microsurgery using the RVRMS were demonstrated in this study. Wider application research of robotic surgery and improvement of a robotic system should be continued.
Entities:
Keywords:
Pars plana vitrectomy; Retinal vascular cannulation; Robot-assisted surgery; Robotic aided surgical system; Vitreoretinal microsurgery
Authors: Prashant R Bhadri; Adrian P Rowley; Rahul N Khurana; Charles M Deboer; Ralph M Kerns; Lawrence P Chong; Mark S Humayun Journal: Am J Ophthalmol Date: 2007-05 Impact factor: 5.258
Authors: Ioana Fleming; Marcin Balicki; John Koo; Iulian Iordachita; Ben Mitchell; James Handa; Gregory Hager; Russell Taylor Journal: Med Image Comput Comput Assist Interv Date: 2008
Authors: Jacques Marescaux; Joel Leroy; Francesco Rubino; Michelle Smith; Michel Vix; Michele Simone; Didier Mutter Journal: Ann Surg Date: 2002-04 Impact factor: 12.969