OBJECTIVES: To describe novel robotic laparoendoscopic single-site surgery (R-LESS) instruments, and present the initial laboratory experience in urology. METHODS: The VeSPA surgical instruments (Intuitive Surgical, Sunnyvale, CA) were designed to be used with the DaVinci Si surgical system. A multichannel port and curved cannulae were inserted through a single 3.5-cm umbilical incision. The port allowed 1 scope, 2 robotic instruments, and a 5- to 12-mm assistant instrument. Four pyeloplasties (right 2, left 2), 4 partial nephrectomies (right 2, left 2), and 8 nephrectomies (right 4, left 4) were performed in 4 female farm pigs (mean weight, 34.5 kg). Technical feasibility and efficiency were assessed in addition to perioperative outcomes. RESULTS: All 16 R-LESS procedures were performed successfully without the addition of laparoscopic ports or open conversion. Mean total operative time was 110 minutes (range, 82-127), and mean blood loss was 20 mL (range, 10-100). Mean warm ischemia time for partial nephrectomy was 14.8 minutes (range, 12-20). There were no intraoperative complications. No robotic system failures occurred, and robotic instrument clashing was found to be minimal. One needle driver malfunctioned and assistant movement was limited. CONCLUSIONS: R-LESS kidney surgery using the VeSPA instruments is feasible and efficient in the porcine model. The system offers a wide range of motion, instrument and scope stability, improved ergonomics, and minimal instrument clashing. Although preliminary experience is encouraging, further refinements are expected to optimize urological applications of this robotic technology.
OBJECTIVES: To describe novel robotic laparoendoscopic single-site surgery (R-LESS) instruments, and present the initial laboratory experience in urology. METHODS: The VeSPA surgical instruments (Intuitive Surgical, Sunnyvale, CA) were designed to be used with the DaVinci Si surgical system. A multichannel port and curved cannulae were inserted through a single 3.5-cm umbilical incision. The port allowed 1 scope, 2 robotic instruments, and a 5- to 12-mm assistant instrument. Four pyeloplasties (right 2, left 2), 4 partial nephrectomies (right 2, left 2), and 8 nephrectomies (right 4, left 4) were performed in 4 female farm pigs (mean weight, 34.5 kg). Technical feasibility and efficiency were assessed in addition to perioperative outcomes. RESULTS: All 16 R-LESS procedures were performed successfully without the addition of laparoscopic ports or open conversion. Mean total operative time was 110 minutes (range, 82-127), and mean blood loss was 20 mL (range, 10-100). Mean warm ischemia time for partial nephrectomy was 14.8 minutes (range, 12-20). There were no intraoperative complications. No robotic system failures occurred, and robotic instrument clashing was found to be minimal. One needle driver malfunctioned and assistant movement was limited. CONCLUSIONS: R-LESS kidney surgery using the VeSPA instruments is feasible and efficient in the porcine model. The system offers a wide range of motion, instrument and scope stability, improved ergonomics, and minimal instrument clashing. Although preliminary experience is encouraging, further refinements are expected to optimize urological applications of this robotic technology.
Authors: Oktay Akça; Homayoun Zargar; Riccardo Autorino; Luis Felipe Brandao; Ahmet Selçuk Gürler; Abdullah Avşar; Rahim Horuz; Selami Albayrak Journal: Turk J Urol Date: 2015-06
Authors: Anthony Yuen Bun Teoh; Shannon Melissa Chan; Hon Chi Yip; Vivien Wai Yin Wong; Philip Wai Yan Chiu; Enders Kwok Wai Ng Journal: Surg Endosc Date: 2017-08-11 Impact factor: 4.584