5CostachescuB_PartialVertebrectomy


 

 

 

 

 
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Partial vertebrectomy with vertebral shortening for 

thoraco-lumbar fracture-dislocation. 

Case report and technical note 

Bogdan Costachescu1,2, Cezar E. Popescu¹, Bogdan Iliescu¹, 

Alexandru Chiriac¹, Ramona Filipescu3, Liviu Pendefunda4 

1Department of Neurosurgery, Emergency University Hospital “Prof. Dr. N. Oblu”, Iasi 
2PhD student University of Medicine and Pharmacy “Grigore T.  Popa” Iasi 
3Department of Neurosurgery, Emergency Pediatric University Hospital “Sfanta Maria”, Iasi 
4Department of Neurology, Emergency University Hospital “Prof. Dr. N. Oblu”, Iasi 

 

Abstract 

Thoraco-lumbar fracture-dislocations 

represent one of the most instable lesions and 

are frequently associated with neurological 

deficit. We present a patient with a T11 – T12 

fracture-dislocation with complete 

neurological deficit – ASIA - A, who 

underwent partial vertebrectomy, shortening 

of the spine and posterior instrumentation 21 

days after a motor vehicle accident. 

Key words: thoraco-lumbar fracture-

dislocation, spine fracture, partial 

vertebrectomy, spine shortening. 

Introduction 

Thoraco-lumbar fracture-dislocations 

represent one of the most instable lesions and 

are frequently associated with neurological 

deficit (1). This type of lesion is not very 

common representing only 16% of thoraco-

lumbar fractures. (2), but are very often 

associated with other lesions which could 

delay the timing of spine surgery. The 

treatment of choice for this lesion, whether 

anterior, posterior, or combined  approaches is 

still controversial. (3).  

In this paper we report a case of T11 – T12 

fracture-dislocation with complete 

neurological deficit, and we discuss the 

surgical treatment, presenting some technical 

notes. 

History and examination 

A 16-years-old boy presented in our 

Emergency Department with complete 

paraplegia and chest pain few hours after  a 

motor vehicle accident (passenger without seat 

belt).  Neurological exam showed complete 

neurological deficit (paraplegia, no voluntary 

anal contraction, no anal sensation S4, S5 

sensory scores ) ASIA-A.  Spine exam showed 

thoraco-lumbar segmental kyphosis with 

swollen soft tissues. 

Imaging – whole body CT scan depicts 

T11-T12 fracture-dislocation with fractures of 

the posterior arch of T11, and  T12  (fig. 1, 2), 

bilateral hemothorax and right pulmonary 

contusion. 
 



 

 

 

 

 
184         Costachescu et al         Partial vertebrectomy with vertebral shortening  

 

 

 

 

 

 

 

 
Figure 1 – axial image – T11-T12 dislocation with 

fractures of posterior arch T11 and T12 

 

 
Figure 2 – sagittal reconstruction – T11-T12 

dislocation 

 

 
Figure 3 - axial image of thorax with bilateral 

hemothorax and left pulmonary contusion 

 

The patient was admitted in the 

Department of Pediatric Surgery for his 

respiratory issues. He was subjected to spine 

surgery 21 days after the accident when the 

neurological status was unchanged – ASIA-A. 

Surgical technique 

We performed partial vertebrectomy with 

spine shortening in the manner described by 

Reyes –Sanchez in 2002 for thoraco-lumbar 

fractures (4).  

Under general anesthesia the patient was 

placed in prone position. Through a midline 

incision the muscles are detached in 

subperiosteal fashion, exposing the laminae 

from T9 to L2. The dissection was carried out 

laterally to the tip of the transverse processes; 

the anterior dislocation was obvious. First 

there were removed the spinous processes and 

the laminae T11 and T12. There was a 

posterior dural tear of 4 mm thorough which 

instead of  CSF,  there was a “leakage” of spinal 

cord lacerated tissue.  Under fluoroscopic 



 

 

 

 

 
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guidance the screws are inserted bilaterally in 

the pedicles of T9, T10, L1 and L2.  

Under magnification (loupes x 3) the facet 

joints T11-T12 were removed. Using a high-

speed drill the upper part of the T12 pedicles 

were resected giving access to the superior two 

thirds of the vertebral body which is emptied. 

Using rongeurs and forceps T11 – T12 disc is 

taken out. The inferior plateau of T11 is 

prepared for arthrodesis. The reduction was 

achieved bending the two rods to restore the 

anatomy of the sine in sagittal plane and 

attached first to inferior screws; using the 

persuader the rods were attached at the end to 

the superior screws. The screws are tightened 

in compression in order to build up a firm 

contact between inferior aspect of T11 

vertebral body and the remaining one third of 

T12 body. Cancellous bone was impacted at 

this level for fusion.  Finally the dural tear is 

sutured with 6-0 Prolene and packed with 

Gelfoam. The duration of surgery was 190 

minutes. 

Postoperative outcome was uneventful. 

The neurological findings remain unchanged.  

Plain X-rays depict partial reduction of the 

dislocation and the maintaining of almost 

normal curvatures of thoraco-lumbar region. 
 

 

 
Figures 4 and 5 – intraoperative images; the suction 

(inferior left) is spotting the vertebrectomy. Note the 

absence of buckled dura. 
 

  

 
Figure 6 – plain X-rays AP (left), profile (middle) 

and comparison with preoperative image (right). 



 

 

 

 

 
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Discussion 

Thoraco-lumbar fracture-dislocations are 

one of the most instable traumatic lesions 

disrupting all of three columns (5), frequently 

associated with neurological deficit.  In 

patients with complete neurological deficit the 

goal of surgery is to reduce the dislocation and 

to provide a stable spine allowing early 

rehabilitation. A lesion as we described with 

dural tear and lacerated spinal cord tissue has 

less chances to improve even if we achieved 

partial reduction and performed 

decompression.  

The approach for this lesions with 

disruption of posterior ligament complex due 

to anterior dislocation associated with 

complete neurological deficit should be 

posterior (6). Some authors advocate the 

anterior approach for these lesions but there 

are many complications worsened by the other 

posttraumatic lesions such as bilateral 

hemothorax and left pulmonary contusion in 

our case (7). 

Partial vertebrectomy with vertebral 

shortening for thoraco-lumbar burst fracture 

was described by Reyes-Sanchez in 2002 (4) in 

order to treat by posterior approach the lesions 

which need anterior one. We also used this 

method for our case because there were 21 

days after the accident and we presumed that 

the reduction without partial vertebrectomy 

will fail. The surgery for fracture- dislocation 

must be done in less than three weeks in order 

to obtain an acceptable reduction. (8) 

In the same time we could consider 

performing the same shortening by using total 

vertebrectomy and fusion as described in 2011 

by Obeid (9). There were some reasons for not 

using these technique: 

- Our case presented only partial 

dislocation and not complete one as the cases 

presented in this paper, so we assumed that we 

can achieve appropriate reduction 

- We could avoid dural buckling removing 

only two thirds of the vertebral body. In case 

of complete vertebrectomy we should cut the 

dural sac and close it separately 

- Our instrumentation was shorter - 8 

screws compared with minimum 12 screws 

used in total vertebrectomy decreasing the 

time of surgery, blood loss and the number of 

vertebral levels blocked. 

- Total vertebrectomy is a surgery with 

important complications rate (10).  

Conclusions  

Partial vertebrectomy with vertebral 

shortening is a reliable technique for thoraco-

lumbar fracture-dislocation  with complete 

neurological deficit allowing in one step good 

reduction and fusion for early rehabilitation  It 

should be performed as soon as possible after 

the injury (before three weeks) for a good 

reduction of dislocation. 

References 

1. Vaccaro AR, Kim DH, Brodke DS et al. Diagnosis and 
management of thoraco-lumbar spine fractures. Instr. 

Course Lect. 2004;53: 359-373. 

2. Gertzbein SD. Scoliosis Research Society. Multicenter 
spine fractures study. Spine 1992;17:528-540. 

3. Smith JS, Shaffrey CI. Thoraco-lumbar injury 
classification for fracture – dislocations in Spine and 

spinal cord trauma – Evidence-based medicine, Thieme 

Medical Publishers, Inc, New York, edited by A. Vaccaro, 

M. F. Dvorak, 2010. 



 

 

 

 

 
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4. Reyes-Sanchez A, Rosales LM, Miramontes VP, Garin 
DE. Treatment of thoraco-lumbar burst fractures. Eur. 

Spine J. (2002) 11: 8 – 12. 

5. Phadnis AS, Tan CJ, Raman AS, et al. Fracture and 
complete dislocation of the spine with normal motor 

neurology. Injury Extra. 2006; 37; 479-483. 

6. VaccaroAR, Lehman RA, Hurlbert J, Anderson PA, 
Harris M.A New classification of thoracolumbar injuries. 

The importance of injury morphology, the integrity of the 

posterior ligamentous complex, and neurologic status. 

Spine Volume 30, No. 20, pp 2325–2333, 2005.   

7. Lubeski D, Abdullah KG, Steinmetz MP, Masters F, 
Benzel EC, Mroz TE, et al. Lateral extracavitary, 

costotransversectomy, and transthoracic approaches to 

the thoracic spine: review of techniques and 

complications. J. Spinal Disorders Tech , Vol. 26, No. 4, 

June 2013. 

8. Feng Wang, Ye Zhu. Treatment of complete fracture-
dislocation of thoraco-lumbar spine. J. Spinal Disorders 

Tech. 2013; 26:421-426. 

9. Obeid I, Guérin P, Gille O, Gangnet N, Aurouer N, 
Pointillart V, Vital JM. Total vertebrectomy and spine 

shortening in the management of acute thoracic spine 

fracture dislocation: technical note and report of 3 cases. 

J Spinal Disord Tech. 2011 Jul;24(5):340-5. 

10. Treatment of subacute thoracic spine fracture-

dislocation by total vertebrectomy and spine shortening: 

technical note. Barcelos AC, Botelho RV. J Neurosurg 

Spine. 2013 Feb;18(2):194-200.