Heliyon (Nov 2024)
Three-dimensional visualization techniques improve surgical Decision Making of robotic-assisted partial nephrectomy
Abstract
Background: Complete preoperative comprehension of the adjacent structures of the kidney and location of renal vessels is essential for robot-assisted partial nephrectomy (RAPN). The effectiveness of three-dimensional (3D) visualization techniques in improving perioperative outcomes of RAPN has been inconsistent and has not been reported in Northeastern China. Methods: In this cohort study, we reviewed patients with renal tumours who underwent RAPN between April 2019 and April 2024. Three-dimensional visualization models were reconstructed to evaluate resectability parameters, including vascular variations, collection system infiltration, and lymphatic involvement. Subsequently, a meta-analysis combining previous studies utilising 3D visualization techniques for partial nephrectomy was conducted. Results: Of the 324 patients in the cohort, 147 were preoperatively evaluated using the 3D technology. Group 3D had significantly less estimated blood loss (P < 0.001) and a shorter operative time (P = 0.016) than in group No 3D. We also found that the rates of intraoperative ultrasound use (P = 0.015), intraoperative complications (P = 0.007), intraoperative transfusions (P = 0.007), and postoperative Clavien complications (P < 0.001) in group 3D were significantly lower than in group No 3D. The above findings were consistent in the subgroup with R.E.N.A.L. ≥ 8 points partly. Furthermore, a meta-analysis identified 11 studies that included 1522 patients who underwent RAPN. Use of 3D visualization technology resulted in decreased 55 % risk of opening the collecting system (Risk Ratio [RR] = 0.45[0.22–0.92], P = 0.030) and 79 % incidence of conversion to radical nephrectomy (RR = 0.21[0.08–0.57], P = 0.002). The RAPN group assisted by 3D visualization techniques showed an 81 % reduction in the risk of blood transfusion than in the control group (RR = 0.19[0.08–0.44], P < 0.001). Conclusions: The application of 3D technology in RAPN appears to be superior for improving precise tumour removal and reducing adverse perioperative outcomes and should be considered for wide use in clinical practice.