Department of Spine Surgery, Hospital for Special Surgery, 535 East 70th Street, New York, NY, 10021, USA.
Department of Radiology, Hospital for Special Surgery, 535 East 70th Street, New York, NY, 10021, USA.
J Robot Surg. 2023 Dec;17(6):2711-2719. doi: 10.1007/s11701-023-01694-9. Epub 2023 Aug 22.
This study aimed to compare screw accuracy and incidence of skive between two robotically navigated instrumented techniques in posterior spine fusion surgery: manual anti-skive instrumentation with an anti-skive cannula (ASC) and the use of a navigated, high-speed drill (HSD). Over a 3-year period, consecutive patients are undergoing RNA posterior fusion surgery with either ASC (n = 53) or HSD (n = 63). Both groups met a value of approximately 292 screws in our analysis (296 ASC, 294 HSD), which was determined by a biostatistician at an academic institution. Screw accuracy and skive was analyzed using preoperative CT and intraoperative three-dimensional (3D) fluoroscopy. Among 590 planned robotically inserted pedicle screws (296 ASC, 294 HSD), 245 ASC screws (82.8%) and 283 HSD screws (96.3%) were successfully inserted (p < 0.05). Skive events occurred in 4/283 (1.4%) HSD screws and 15/245 (6.2%) ASC screws (p < 0.05). HSD screws showed better accuracy in the axial and sagittal planes, being closer to planned trajectories in all directions except cranial deviation (p < 0.05). Additionally, HSD had a significantly lower time per screw (1.9 ± 1.0 min) compared to ASC (3.2 ± 2.0 min, p < 0.001). No adverse clinical effects were observed. The HSD technique showed significant improvements in time and screw accuracy compared to ASC. Biplanar fluoroscopy and 3D imaging resulted in significantly lower radiation exposure and time compared to ASC. These significant findings in the HSD group may be attributed to the lower occurrence of malpositioned screws, leading to a decrease in the need for second authentication. This represents a notable iterative improvement of the RNA platform.
手动防滑器械与防滑套管(ASC)和使用导航高速钻(HSD)。在 3 年期间,连续的患者接受 RNA 后路融合手术,使用 ASC(n=53)或 HSD(n=63)。两组都达到了我们在学术机构的生物统计学家确定的大约 292 个螺钉值。使用术前 CT 和术中三维(3D)透视术分析螺钉准确性和滑削。在 590 个计划机器人插入的椎弓根螺钉中(296 个 ASC,294 个 HSD),245 个 ASC 螺钉(82.8%)和 283 个 HSD 螺钉(96.3%)成功插入(p<0.05)。4/283(1.4%)HSD 螺钉和 15/245(6.2%)ASC 螺钉发生滑削事件(p<0.05)。HSD 螺钉在轴向和矢状面具有更好的准确性,除了颅向偏差外,在所有方向上更接近计划轨迹(p<0.05)。此外,HSD 每颗螺钉的时间明显更短(1.9±1.0 分钟),而 ASC 为 3.2±2.0 分钟(p<0.001)。没有观察到不良的临床效果。与 ASC 相比,HSD 技术在时间和螺钉准确性方面有显著提高。与 ASC 相比,双平面透视和 3D 成像可显著降低辐射暴露和时间。HSD 组的这些显著发现可能归因于错位螺钉的发生率较低,从而减少了二次验证的需要。这代表了 RNA 平台的显著迭代改进。
