A New Minimally Invasive Experimental Spinal Cord Injury Model in Rabbits

A. Baydin; C. Cokluk; K. Aydin

doi:10.1055/s-2007-985375

min - Minimally Invasive Neurosurgery, Table of Contents

Minim Invasive Neurosurg 2007; 50(3): 170-172
DOI: 10.1055/s-2007-985375

Original Article

A New Minimally Invasive Experimental Spinal Cord Injury Model in Rabbits

A. Baydin¹ , C. Cokluk² , K. Aydin²

¹Department of Emergency Medicine, Ondokuzmayıs University, Medical Faculty, Samsun, Turkey
²Department of Neurosurgery, Ondokuzmayıs University, Medical Faculty, Samsun, Turkey

Abstract

The aim of this experimental study was to evaluate the effectivity of epidural microballoon inflation into the unroofed spinal column for the creation of a new experimental spinal cord injury model in rabbits. 10 New Zealand white rabbits were used for this study. Before operation and after anasthesia with 50 mg/kg ketamine and 8 mg/kg xylazine, spinal evoked potentials (SEP) were recorded in all rabbits. A midline skin incision was done on the lomber skin at the level of L1-L4. Paravertebral muscles were dissected bilaterally. A microhemilaminotomy was done in the right L3 lamina close to the midline by using Midas-rex micro-diamond drill instruments. The ligamentum flavum was opened and removed with microscissors. A microballoon was inserted into the spinal column between the bone and dura mater to the level of T12. The microballoon was inflated by using a pressure- and volume-controlled microballoon inflation device. Pre-injury and post-injury SEPs were recorded. The microballoon was deflated 15 minutes later and removed completely from the epidural space. 24 hours later the SEP study was repeated. Following microballoon inflation the SEP waves dropped to the basal level. All rabbits were paraplegic after the operation. In conclusion, this experimental study demonstrated that the microballoon inflation technique is a very successful method for the evaluation of spinal cord injury in rabbits. Unroofing of the spinal column is extremely important because decompression may be an effective treatment in spinal cord injury. Also the traumatic effect of aneurysm clips represents a different type of injury to the spinal cord. This new model may be used in experimental studies of spinal cord injury in rabbits.

Key words

spinal cord injury - experimental models - microballoon inflation

Full Text

References

1 Wilkins RH. (ed) . The Edwin Smith surgical papyrus. In: Neurosurgical Classics. Chicago, American Association of Neurological Surgeons 1992: 1-5
2 Amar AP, Levy ML. Pathogenesis and pharmacological strategies for mitigating secondary damage in acute spinal cord injury. Neurosurgery. 1999; 44 1027-1040
3 Dolan EJ, Tator CH, Endrenyi L. The value of decompression for acute experimental spinal cord compression injury. J Neurosurg. 1980; 53 749-755
4 Dolan EJ, transfeldt EE, Tator CH, Simmons EH, Hughes KF. The effect of spinal distraction on regional spinal cord blood flow in cats. J Neurosurg. 1980; 53 756-764
5 Faden AI. Pharmacotherapy in spinal cord injury: A critical review of recent developments. Clin Neurophamacol. 1987; 10 193-204
6 Sandler AN, Tator CH. Effect of acute spinal cord compression injury on reginal spinal cord blood flow in primates. J Neurosurg. 1976; 45 660-676

Correspondence

Prof. C. CoklukMD

Department of Neurosurgery

Ondokuzmayis University

Medical Faculty

55139 Samsun

Turkey

Phone: +90/362/312 19 19/31 11

Email: cengizcokluk@yahoo.com