Biomechanical effects of vertebroplasty on thoracolumbar burst fracture with transpedicular fixation: A finite element model analysis - 27/05/14
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Abstract |
Objective |
To investigate the biomechanical effects of augmentation of the fractured vertebrae after posterior instrumentation.
Methods |
By simulating internal fixation plus augmentation with cement, eight tridimensional, anatomically detailed finite element models of the T11-L1 functional spinal junction were developed. Two kinds of models for mimicking different severity of the fracture were established according to the Denis’ classification. Augmentation with cement was conducted after reduction with posterior fixation using a universal spine system. These models assumed a three-column loading configuration as follows: compression, anteflexion, extension, lateroflexion and axial rotation. Stress of the implants and spine was evaluated.
Results |
Data showed that for severely fractured models, augmentation apparently decreased the von Mises stresses by 50% for the rods and 40% for the screws, about 40% for the inferior endplate of T11, and 50% for the superior endplate of L1 in vertical compression and other load situations.
Conclusion |
We should only apply vertebroplasty to prevent correction loss and implants failure based on the fact that it could significantly decrease stress of the instrumentations and spine when the vertebrae are severely fractured.
Level of evidence |
Level IV, biomechanical study.
El texto completo de este artículo está disponible en PDF.Keywords : Thoracolumbar fracture, Posterior fixation, Vertebroplasty, Finite element analysis
Esquema
Vol 100 - N° 4
P. 379-383 - juin 2014 Regresar al número
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Bienvenido a EM-consulte, la referencia de los profesionales de la salud.