Abstract
Purpose
In the field of spinal surgery, 3D-fluoroscopy navigation-assisted pedicle screw (PS) insertion with intra-operative 3D-image control represents a modern application of contemporary navigation technology. In literature, sectional or vertebral accuracy limitations of this image-guidance approach are not profoundly specified. This observational study explicitly differentiates accuracy rates and misplacement mode between spinal sections and single vertebrae from T10 to S1 using a navigation-assisted approach.
Methods
From February 2011 through July 2015, all 3D-fluoroscopy navigation-assisted, 3D-image controlled PS insertions from T10 to S1 were prospectively recorded and evaluated for PS insertion depth, angulation, and entering-point modifications after intraoperative O-arm control scanning. Major complications requiring revision surgery for neurological damage/major bleedings, and procedure-related unintended violations of anatomical structures were recorded.
Results
In 1547 navigation-assisted PS insertions, thoracolumbar accuracy (96.4%) was significantly higher than sacral accuracy (92.6%, p ≈ 0.007) due to special requirements to exact PS (insertion depth) in S1 (p < 0.001). Vertebrae with modification rates above average were identified (T10, L5-S1) (p < 0.001). Major complications did not occur, anatomical structures were violated in 1.2% (19/1547 PS insertions).
Conclusions
In navigation-assisted O-arm-controlled PS placements, correct PS insertion depths are less easily to achieve than correct trajectory or entering-points, which is important for bicortical PS anchorage in S1. Therefore, post-instrumentation PS control by 3D-imaging or at least intraoperative fluoroscopy is recommended for levels with special requirements to exact PS insertion depths (e.g. S1).
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