Cirq 机器人辅助胸腰椎弓根螺钉置入术：克服微创脊柱手术的缺点。

Cirq Robotic Assistance for Thoracolumbar Pedicle Screw Placement: Overcoming the Disadvantages of Minimally Invasive Spine Surgery.

机构信息

Department of Neurosurgery, University Hospital "Pirogov", Sofia, Bulgaria.

出版信息

Acta Neurochir Suppl. 2023;135:389-392. doi: 10.1007/978-3-031-36084-8_59.

DOI:10.1007/978-3-031-36084-8_59

PMID:38153498

Abstract

INTRODUCTION

Various minimally invasive spine surgery (MISS) techniques have been developed with the goal of reducing approach-related soft-tissue trauma and its associated complications. However, there is still a debate on some of the potential drawbacks of MISS techniques, such as their longer operating times and increased intraoperative radiation. A solution to these disadvantages could be the implementation of new technologies, such as computer-assisted navigation (CAN) and surgical robotics. We compare the standard fluoroscopy MISS technique with our experience with time per screw and X-ray exposure for pedicle screw placement using the Brainlab Cirq passive robotic arm assistance coupled with the Brainlab Curve navigation system.

METHODS

In the Cirq robot-assisted group (Group I), 109 screws were placed in 24 prospectively analyzed patients. In the fluoroscopy-guided group, 108 screws inserted into 20 consecutive patients were analyzed retrospectively (Group II). The duration of surgery, the time to place one screw, the X-ray exposition, and the pedicle screw accuracy for each patient were recorded and reviewed.

RESULTS

In total, 217 screws were analyzed. The treated levels ranged from T10 to S1. In Group I, 104 screws were grade A (95.4%) and five were grade B (4.6%). In Group II, 96 screws were grade A (88.89%); ten were grade B (9.26%); one was grade C (0.93%), and one was grade D (0.93%). While the screws placed by using the Cirq system were more accurate overall, there was no statistical significance when the two groups were compared, p = 0.3724. There was no significant difference in radiation exposure between the two groups, p = 0.5482; however the radiation exposure for the surgeon was very limited with the Cirq system. There was a significant reduction in the operation length (p = 0.0183) and the time per screw (p < 0.0001) for Group I.

CONCLUSIONS

The CAN systems and emerging robotic platforms have the potential to diminish the main disadvantages of MISS techniques-longer operation times and X-ray exposure, at least for the surgical team.

摘要

简介

各种微创脊柱手术（MISS）技术已经发展起来，目的是减少与入路相关的软组织创伤及其相关并发症。然而，关于 MISS 技术的一些潜在缺点仍存在争议，例如手术时间较长和术中辐射增加。解决这些缺点的一种方法可能是采用新技术，如计算机辅助导航（CAN）和手术机器人。我们将标准透视 MISS 技术与我们使用 Brainlab Cirq 无源机器人臂辅助结合 Brainlab Curve 导航系统进行椎弓根螺钉置入的每颗螺钉时间和 X 射线暴露的经验进行比较。

方法

在 Cirq 机器人辅助组（I 组）中，24 例前瞻性分析患者中置入了 109 颗螺钉。在透视引导组中，回顾性分析了 20 例连续患者中置入的 108 颗螺钉（II 组）。记录并回顾每位患者的手术持续时间、每颗螺钉的置入时间、X 射线曝光量和椎弓根螺钉的准确性。

结果

共分析了 217 颗螺钉。治疗水平从 T10 到 S1。在 I 组中，104 颗螺钉为 A 级（95.4%），5 颗为 B 级（4.6%）。在 II 组中，96 颗螺钉为 A 级（88.89%）；10 颗为 B 级（9.26%）；1 颗为 C 级（0.93%），1 颗为 D 级（0.93%）。虽然使用 Cirq 系统放置的螺钉总体上更准确，但两组比较时无统计学意义，p=0.3724。两组之间的辐射暴露没有显著差异，p=0.5482；然而，Cirq 系统使术者的辐射暴露非常有限。I 组的手术长度（p=0.0183）和每颗螺钉的时间（p<0.0001）显著缩短。