Mechanical stress on the rod in posterior spinal fusion with and without rod fracture: a finite element analysis
Tomohisa Inoue, Yoh Kumano, Jun Sugaya, Ken Okazaki, Toru Doi

TL;DR
This study uses computer models to analyze how rod fractures in spinal fusion surgery affect mechanical stress on rods and discs under different movements.
Contribution
The study introduces a finite element analysis comparing mechanical stress on spinal rods with and without unilateral rod fracture under various loading conditions.
Findings
Rod fracture models showed higher disc stress under all loading directions.
Axial rotation and lateral bending increased rod stress in rod fracture models.
Restricting axial rotation and lateral bending may reduce rod stress after surgery.
Abstract
Rod fracture (RF) is a common complication of posterior spinal fusion surgery, with a high reoperation rate. This study evaluated the mechanical stress on the rods and intervertebral discs under various loading conditions in a simplified short-segment lumbar fusion model (L3-S1) with and without a unilateral rod fracture (URF) via 3D-computed tomography finite element analysis (CT/FEA), to clarify the spinal motion directions most associated with the mechanical stress on the rods. Two 3D nonlinear finite element models of L3–S1 posterior spinal fusion were created using the preoperative CT images of 10 patients: (1) a no rod fracture (NRF) model and (2) a URF model with a simulated left RF at L4/5. A 10-Nm load was applied in six directions (flexion, extension, right and left lateral bending, and right and left axial rotation), and the maximum von Mises stress on the right rod at L4/5…
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Taxonomy
TopicsSpinal Fractures and Fixation Techniques · Spine and Intervertebral Disc Pathology · Cervical and Thoracic Myelopathy
