A minimally invasive, 3D-fluoroscopy-navigation-guided, 3D-controlled pedicle approach in spine surgery: first reliable results and impact on patient safety

• Published in: European journal of trauma and emergency surgery (Munich : 2007) Vol. 47; no. 3; pp. 739 - 748
• Main Authors: El Saman, André, Meier, Simon Lars, Marzi, Ingo
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.06.2021; Springer Nature B.V
• Subjects: Accuracy; Back surgery; Critical Care Medicine; Emergency medical care; Emergency Medicine; Intensive; Medical imaging; Medicine; Medicine & Public Health; Original; Original Article; Orthopedics; Patient safety; Spine; Sports Medicine; Surgery; Surgical Orthopedics; Traumatic Surgery; 3D; Pedicle screw; Accuracy; Navigation; MIS; Minimally invasive; Spine surgery
• ISSN: 1863-9933; 1863-9941
• DOI: 10.1007/s00068-020-01332-1

Purpose Safe pedicle screw placement is a daily challenge to every spine surgeon. Introduction of minimally invasive approaches in spinal surgery led to an impaired facility of inspection of the surgical field increasing the importance of intraoperative imaging and navigation. During the past years, we established a minimally invasive, navigated approach in our clinical setting. Methods We retrospectively reviewed the accuracy of pedicle approaches in patients treated due to traumatic or osteoporotic fractures, spondylitis/discitis, and tumoral lesions. Guide wires for pedicle screws or kyphoplasty cannulas were inserted in a 3D-navigation-guided, minimally invasive technique. Positioning of the guide wires was verified via 3D-scan, and pedicle screws/kyphoplasty cannulas were then visualized via a.p./lateral radiographs. Accuracy data were compared to a standard navigated open approach control group with indications similar to the MIS-group. Results 23 MIS patients were included in this study (25–84 years, mean 70 years) with a total of 154 placed guide wires. Handling of the navigated Jamshidi needle was easy and secure. The guide wires showed correct placement in 151/154 cases. Three wires (1.9%) needed correction of placement after control scan. There were no vascular or neurologic complications due to wire misplacement. In the open-surgery control group, 7/181 screws (3.9%) needed intraoperative correction presenting no significant difference compared to the correction rate of the MIS-group ( p  = 0.35). Conclusion Our study shows the feasibility and reliability of a navigation-guided, minimally invasive pedicle approach in the clinical setting. Therefore, reduced morbidity due to minimized approaches can be combined with higher accuracy of navigated pedicle screw/kyphoplasty cannula placement improving patient safety.