<p>The integration of robotic systems into minimally invasive surgery offers significant advantages, including enhanced precision, reduced invasiveness, and improved patient outcomes. However, sustaining these benefits requires optimization of operational efficiency to justify the substantial resource investment associated with robotic technologies. This review examines strategies to enhance efficiency in robotic-assisted surgery using a four-pillar framework: (1) team structure and leadership; (2) organization of care; (3) procedural standardization; and (4) parallel task overlap. Evidence from the literature and practice-informed observations suggests that well-coordinated multidisciplinary teams, structured perioperative planning, and optimized operating room organization can reduce delays and improve workflow efficiency. Standardization of equipment setup and surgical steps further enhances procedural predictability, while parallel tasking minimizes downtime and improves operating room capacity. When combined with continuous training and iterative process evaluation, these strategies may optimize robotic surgical performance, improve cost efficiency, and support high-quality, patient-centered care.</p>

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Improving efficiency in robotic-assisted surgery: a practical guide for surgeons

  • Charlotte Maene,
  • Youssef Youssef,
  • Serena Guerra,
  • Jasmin Ghanbari,
  • Stefaan Bafort,
  • Martin Martino,
  • Gaby Moawad

摘要

The integration of robotic systems into minimally invasive surgery offers significant advantages, including enhanced precision, reduced invasiveness, and improved patient outcomes. However, sustaining these benefits requires optimization of operational efficiency to justify the substantial resource investment associated with robotic technologies. This review examines strategies to enhance efficiency in robotic-assisted surgery using a four-pillar framework: (1) team structure and leadership; (2) organization of care; (3) procedural standardization; and (4) parallel task overlap. Evidence from the literature and practice-informed observations suggests that well-coordinated multidisciplinary teams, structured perioperative planning, and optimized operating room organization can reduce delays and improve workflow efficiency. Standardization of equipment setup and surgical steps further enhances procedural predictability, while parallel tasking minimizes downtime and improves operating room capacity. When combined with continuous training and iterative process evaluation, these strategies may optimize robotic surgical performance, improve cost efficiency, and support high-quality, patient-centered care.