Asian Spine J.  2016 Feb;10(1):6-13. 10.4184/asj.2016.10.1.6.

Simple and Economical Method to Create Thoracolumbar Burst Fracture in a Calf Spine Model

Affiliations
  • 1Spinal Disorder Surgery Unit, Department of Orthopaedics, Christian Medical College, Vellore, India. vijays_sdumc@yahoo.co.in

Abstract

STUDY DESIGN: Calf spine model study. PURPOSE: To describe a technique of creating thoracolumbar burst fractures in calf spine model by low weight drop weight. OVERVIEW OF LITERATURE: Burst fractures are one of the commonest types of thoracolumbar fractures and their treatment is controversial. Biomechanical studies aid in the decision of treatment of these fractures. A simple method of creation of burst fractures would help these biomechanical studies.
METHODS
Ten specimens of thoracolumbar spines harvested from 6-8 week old calves were weakened at the target vertebra by standardized osteotomy cuts. Burst fractures were created by dropping a 5-kg of weight from a height of 1.2 m using an in-house device. An accelerometer attached to the weight measured the acceleration at the point of impact.
RESULTS
Average weight and bone mineral density of the specimens was 390 g and 0.67 g/cm2, respectively. Computed tomography scan analysis of the fractures revealed McCormack grade 2 and grade 3 fractures in 5 and 3 specimens, respectively, Dennis type 2B in 4, type 2A burst fractures in 5 specimens and fracture dislocation in 1 specimen, AO type A3.1.1 in 4 specimens, type A3.2.2 in 4 and type A3.3.3 in 2 specimens. Vertical laminar split fracture was seen in 6 specimens. Average acceleration and energy at impact was 9.04 m/sec and 54.24 Nm, respectively.
CONCLUSIONS
We describe a technique to create thoracolumbar burst fractures in calf spine by a drop weight method using a device that is simple to operate and easy to construct. The method is consistent and produces fractures similar to those occurring naturally, and can be considered as an alternative method for creating burst fractures in biomechanical studies.

Keyword

Spine; Calf; Burst; Fracture

MeSH Terms

Acceleration
Bone Density
Dislocations
Osteotomy
Spine*
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