# Thoracic Spine Fracture-Dislocation After Minor Trauma in a Neurologically Intact Patient With Congenital Absence of Posterior Spinal Elements: A Case Report

**Authors:** Rawwaf Alfarsi, Mohamed Elkhalifa, Jaser Tashkandi, Mohammed Hadi

PMC · DOI: 10.7759/cureus.101659 · 2026-01-16

## TL;DR

A 31-year-old woman suffered a severe thoracic spine injury from a minor fall but remained neurologically intact due to a rare congenital spinal condition.

## Contribution

This case report highlights a unique mechanism of neurological sparing in spinal injury due to congenital absence of posterior spinal elements.

## Key findings

- The patient had a T4-T5 fracture-dislocation from a low-energy fall but remained neurologically intact.
- Congenital absence of posterior spinal elements at T3-T6 was identified as a contributing factor.
- The spinal canal's increased space protected the spinal cord despite severe instability.

## Abstract

Thoracic spine fracture-dislocations are typically the product of high-energy injuries, and their neurological sequelae are usually devastating. For a patient to experience such an injury from a minor trauma and preserve all neurological function is rare and is often credited to the paradoxical decompression effect that follows a traumatic fracture of the posterior elements of the spine. This is a case of a 31-year-old female patient who suffered a severe thoracic spine fracture-dislocation from a low-energy fall from a manually operated “merry-go-round” in a kids' park. Despite the apparent instability, she was totally neurologically intact. Furthermore, MRI and CT were performed, which revealed a fracture-dislocation at the T4-T5 level and a previously undiagnosed congenital absence of the spinous processes and the posterior ligamentous complex at the level of T3-T6. The patient was successfully managed with open posterior reduction and instrumented fusion. Her recovery was complete and remains neurologically intact at long-term follow-up. In the context of severe spinal instability, this case highlights a unique pathophysiological mechanism for neurological sparing. The congenital absence of posterior elements of the thoracic spine created a biomechanically vulnerable segment that is susceptible to dislocation from such a minor trauma. Simultaneously, this also created an abnormally capacious spinal canal that protected the spinal cord from getting injured. This report highlights the importance of having a high index of suspicion for underlying congenital abnormalities when a significant spinal injury occurs from a low-energy mechanism.

## Full-text entities

- **Diseases:** spinal injury (MESH:D013124), spinal instability (MESH:D043171), dislocation (MESH:D004204), sequelae (MESH:D000094024), sparing (MESH:C538329), Thoracic spine fracture-dislocations (MESH:D000072039), Thoracic Spine Fracture (MESH:D000092443), congenital abnormalities (MESH:D000013), Trauma (MESH:D014947), Congenital Absence of (MESH:D000757), fracture (MESH:D050723)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12908497/full.md

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Source: https://tomesphere.com/paper/PMC12908497