Abstract
Study Design: Retrospective, diagnostic study. Objective: To verify if the interspinous distance is able to predict the risk for kyphotic collapse in thoracolumbar burst fractures treated conservatively without neurological deficit. Summary of Background Data: In patients with thoracolumbar burst fractures, the association between the amount of comminution, by using load-sharing classification (LSC), and kyphotic collapse is presented in the literature. However, LSC does not include the interspinous distance as an indirect sign to suggest biomechanical instability due to posterior ligamentous disruption in these patients in order to predict kyphotic collapse. Methods: We added the interspinous distance to the load-sharing classification (MLSC) in 50 consecutive patients with thoracolumbar burst fractures (according to Denis criteria) treated conservatively. Results: The LSC score was correlated to kyphotic collapse in the patients treated with TLSO (r = 0.312, p = 0.027; Spearman test; A = 0.668). The MLSC was similarly correlated to kyphotic collapse among TLSO-treated patients (r = 0.295, p = 0.038; Spearman test; A = 0.652). Conclusions: The interspinous distance did not contribute to the identification of worse radiographic outcomes, represented by the kyphotic collapse. This may suggest that the amount of comminution pointed out by the LSC is enough and more important than the interspinous opening in order to predict kyphotic collapse in thoracolumbar burst fractures. Possibly, the interspinous distance is much too heterogenous and multifactorial to be useful, since it reflects vertebral body height, preinjury anatomy, as well as posterior element disruption.
Highlights
The increasing incidence of spine injuries today inspires studies that help in the classification and treatment of patients with thoracolumbar fractures [1] [2]
Fifty patients completed the criteria of this study. .The load sharing classification (LSC) score was correlated to kyphosis deformity in the patients treated with thoracolumbosacral orthosis (TLSO) (r = 0.312, p = 0.027; Spearman’s test)
Thoracolumbar burst fractures are found in patients suffering from multiple injuries from high-energy traumas [11]
Summary
The increasing incidence of spine injuries today inspires studies that help in the classification and treatment of patients with thoracolumbar fractures [1] [2]. This region accounts for the vast majority of fractures in the spine. Holdsworth [5], in 1970, classified the thoracolumbar fractures based on the model of two columns, divided by the anterior longitudinal ligament, and they described the burst fracture as a secondary injury to the compressive rupture of the vertebral body after an axial load. A burst fracture was classified as a major spinal injury affecting the anterior and middle columns [5]-[7]. Only the classification of McCormack et al [7], known as the load sharing classification (LSC), suggests that the amount of comminution of the vertebral body can predict kyphotic collapse in these fractures [9]-[12]
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