UNLABELLED: Abstract Background and Purpose: The Single Port Instrument Delivery Extended Reach (SPIDER) surgical system was developed for true continuous instrument triangulation during laparoendoscopic single site (LESS) surgery. We present our initial preclinical experience with the SPIDER surgical system during renal surgery. MATERIAL AND METHODS: Bilateral laparoscopic nephrectomies were performed in a live adult porcine animal model using the SPIDER device. A standard surgical approach was used via direct video guidance. RESULTS: The procedure was successfully performed without surgical error or complication. The SPIDER system proved easy to use with only a minimal learning curve. Intracorporeal surgical knots were tied without difficulty using this single site system. CONCLUSIONS: Our initial experience with the SPIDER surgical system during renal surgery is promising. SPIDER allows for true single port instrument triangulation offering a superior operative experience to currently available LESS surgical systems.
UNLABELLED: Abstract Background and Purpose: The Single Port Instrument Delivery Extended Reach (SPIDER) surgical system was developed for true continuous instrument triangulation during laparoendoscopic single site (LESS) surgery. We present our initial preclinical experience with the SPIDER surgical system during renal surgery. MATERIAL AND METHODS: Bilateral laparoscopic nephrectomies were performed in a live adult porcine animal model using the SPIDER device. A standard surgical approach was used via direct video guidance. RESULTS: The procedure was successfully performed without surgical error or complication. The SPIDER system proved easy to use with only a minimal learning curve. Intracorporeal surgical knots were tied without difficulty using this single site system. CONCLUSIONS: Our initial experience with the SPIDER surgical system during renal surgery is promising. SPIDER allows for true single port instrument triangulation offering a superior operative experience to currently available LESS surgical systems.
Authors: Anthony Michael Gonzalez; Jorge Rafael Rabaza; Charan Donkor; Rey Jesús Romero; Radomir Kosanovic; Juan Carlos Verdeja Journal: Surg Endosc Date: 2013-08-13 Impact factor: 4.584
Authors: Giovannni Scala Marchini; Italo D Fioravanti; Leonardo V Horta; Fabio C M Torricelli; Anuar Ibrahim Mitre; Marco Antonio Arap Journal: Int Braz J Urol Date: 2016 Jan-Feb Impact factor: 1.541