Feasibility Studies ; Humans ; Learning Curve ; Mammaplasty / methods ; Perforator Flap / transplantation* ; Rectus Abdominis / surgery* ; Robotic Surgical Procedures / education ; Robotic Surgical Procedures / instrumentation ; Robotic Surgical Procedures / methods* ; Tissue and Organ Harvesting / education ; Tissue and Organ Harvesting / instrumentation ; Tissue and Organ Harvesting / methods* ; Transplant Donor Site / surgery*
Abstract
Deep inferior epigastric artery perforator (DIEP) flap surgery is one of the most common techniques for breast reconstruction using abdominal tissue. Although the DIEP flap reduces donor-site morbidity when compared with the conventional free transverse rectus abdominis musculocutaneous flap, violation of the anterior rectus sheath, rectus muscle, and motor nerves cannot be avoided. To further minimize tissue damage in the donor site, the use of a surgical robotic system for DIEP flap harvest with a totally extraperitoneal approach has been suggested. This totally extraperitoneal approach has a long learning curve because of the narrow preperitoneal space and the difficulty of converting a potential space to an actual space. Thus, the authors suggest a single-port robotic system optimized for narrow surgical spaces as a feasible option for DIEP flap harvest by a totally extraperitoneal approach, which has a shorter learning curve.