Medical University of Innsbruck, University ENT Clinic, Innsbruck, Austria.
Int J Comput Assist Radiol Surg. 2024 Dec;19(12):2371-2380. doi: 10.1007/s11548-024-03135-w. Epub 2024 May 15.
A patient registration and real-time surgical navigation system and a novel device and method (Noctopus) is presented. With any tracking system technology and a patient/target-specific registration marker configuration, submillimetric target registration error (TRE), high-precise application accuracy for single or multiple anatomical targets in image-guided neurosurgery or ENT surgery is realized.
The system utilizes the advantages of marker-based registration technique and allows to perform automatized patient registration using on the device attached and with patient scanned four fiducial markers. The best possible sensor/marker positions around the patient's head are determined for single or multiple region(s) of interest (target/s) in the anatomy. Once brought at the predetermined positions the device can be operated with any tracking system for registration purposes.
Targeting accuracy was evaluated quantitatively at various target positions on a phantom skull. The target registration error (TRE) was measured on individual targets using an electromagnetic tracking system. The overall averaged TRE was 0.22 ± 0.08 mm for intraoperative measurements.
An automatized patient registration system using optimized patient-/target-specific marker configurations is proposed. High-precision and user-error-free intraoperative surgical navigation with minimum number of registration markers and sensors is realized. The targeting accuracy is significantly improved in minimally invasive neurosurgical and ENT interventions.
提出了一种患者注册和实时手术导航系统以及一种新型设备和方法(章鱼)。通过任何跟踪系统技术和患者/目标特定的注册标记配置,实现了亚毫米级目标注册误差(TRE),在神经外科或耳鼻喉科手术的图像引导下,对单个或多个解剖目标具有高精度的应用精度。
该系统利用基于标记的注册技术的优势,并允许使用设备上附有的和患者扫描的四个基准标记来自动进行患者注册。为解剖学中的单个或多个感兴趣区域(目标)确定患者头部周围的最佳传感器/标记位置。一旦将设备带到预定位置,就可以使用任何跟踪系统进行注册目的。
在幻影头骨上的各个目标位置上对靶向准确性进行了定量评估。使用电磁跟踪系统测量了单个目标的目标注册误差(TRE)。术中测量的总体平均 TRE 为 0.22±0.08mm。
提出了一种使用优化的患者/目标特定标记配置的自动患者注册系统。通过使用最少数量的注册标记和传感器,实现了高精度且无用户错误的术中手术导航。在微创神经外科和耳鼻喉科干预中,靶向准确性得到了显著提高。