BACKGROUND: Surgical innovation is essential for progress of surgical science, but its implementation comes with potential harms during the learning phase. The Balliol Collaboration has recommended a set of guidelines (Innovation, Development, Exploration, Assessment, Long-term study [IDEAL]) that permit innovation while minimizing complications. OBJECTIVE: To utilize the IDEAL model of surgical innovation in the development of a novel surgical technique, robotic kidney transplantation (RKT) with regional hypothermia, and describe the process of discovery and development. DESIGN, SETTING, AND PARTICIPANTS: Phase 0 (simulation) studies included the establishment of techniques for pelvic cooling, graft placement in a robotic prostatectomy model, and simulation of the RKT procedure in a cadaveric model. Phase 1 (innovation) studies began in January 2013 and involved treatment of a highly selective small group of patients (n=7), using the principles utilized in the phase 0 studies, at a tertiary referral center. INTERVENTION: IDEAL model implementation in the development of RKT with regional hypothermia. OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: For phase 0 studies, the outcomes evaluated included pelvic and body temperature measurements, and technical feasibility assessment. The primary outcome during phase 1 was post-transplant graft function. Other outcomes measured were operative and ischemic times, perioperative complications, and intracorporeal graft surface temperature. RESULTS AND LIMITATIONS: Phase 0 (simulation phase): Pelvic cooling to 15-20(o)C was achieved reproducibly. Using the surgical approach developed for robotic radical prostatectomy, vascular and ureterovesical anastomoses could be done without redocking the robot. Phase 1 (innovation phase): All patients underwent live-donor RKT in the lithotomy position. All grafts functioned immediately. Mean console, anastomotic, and warm ischemia times were 154 min, 29 min, and 2 min, respectively. One patient was re-explored on postoperative day 1. CONCLUSIONS: Adherence to the IDEAL guidelines put forth by the Balliol Collaboration provided a practical framework for the establishment of a novel surgical procedure, RKT with regional hypothermia, without exposing the initial patients to unacceptable risk. PATIENT SUMMARY: The IDEAL model allows safe introduction of new surgical techniques without compromising patient outcomes.
BACKGROUND: Surgical innovation is essential for progress of surgical science, but its implementation comes with potential harms during the learning phase. The Balliol Collaboration has recommended a set of guidelines (Innovation, Development, Exploration, Assessment, Long-term study [IDEAL]) that permit innovation while minimizing complications. OBJECTIVE: To utilize the IDEAL model of surgical innovation in the development of a novel surgical technique, robotic kidney transplantation (RKT) with regional hypothermia, and describe the process of discovery and development. DESIGN, SETTING, AND PARTICIPANTS: Phase 0 (simulation) studies included the establishment of techniques for pelvic cooling, graft placement in a robotic prostatectomy model, and simulation of the RKT procedure in a cadaveric model. Phase 1 (innovation) studies began in January 2013 and involved treatment of a highly selective small group of patients (n=7), using the principles utilized in the phase 0 studies, at a tertiary referral center. INTERVENTION: IDEAL model implementation in the development of RKT with regional hypothermia. OUTCOME MEASUREMENTS AND STATISTICAL ANALYSIS: For phase 0 studies, the outcomes evaluated included pelvic and body temperature measurements, and technical feasibility assessment. The primary outcome during phase 1 was post-transplant graft function. Other outcomes measured were operative and ischemic times, perioperative complications, and intracorporeal graft surface temperature. RESULTS AND LIMITATIONS: Phase 0 (simulation phase): Pelvic cooling to 15-20(o)C was achieved reproducibly. Using the surgical approach developed for robotic radical prostatectomy, vascular and ureterovesical anastomoses could be done without redocking the robot. Phase 1 (innovation phase): All patients underwent live-donor RKT in the lithotomy position. All grafts functioned immediately. Mean console, anastomotic, and warm ischemia times were 154 min, 29 min, and 2 min, respectively. One patient was re-explored on postoperative day 1. CONCLUSIONS: Adherence to the IDEAL guidelines put forth by the Balliol Collaboration provided a practical framework for the establishment of a novel surgical procedure, RKT with regional hypothermia, without exposing the initial patients to unacceptable risk. PATIENT SUMMARY: The IDEAL model allows safe introduction of new surgical techniques without compromising patient outcomes.
Authors: Alberto Breda; Angelo Territo; Lluis Gausa; Oscar Rodríguez-Faba; Jorge Caffaratti; Javier Ponce de León; Lluis Guirado; Carme Facundo; Marco Guazzieri; Andrea Guttilla; Humberto Villavicencio Journal: World J Urol Date: 2017-02-22 Impact factor: 4.226
Authors: Akshay Sood; Dane E Klett; Firas Abdollah; Jesse D Sammon; Dan Pucheril; Mani Menon; Wooju Jeong; James O Peabody Journal: Investig Clin Urol Date: 2016-05-02