Percutaneous epidural balloon catheter insertion for establishing a sheep model of acute cervical spinal cord injury
10.3724/SP.J.1008.2013.00398
- Author:
Xuan HUANG
1
Author Information
1. Department of Orthopedics, Changhai Hospital, Second Military Medical University
- Publication Type:Journal Article
- Keywords:
Animal models;
Balloon compression;
Epidural balloon catheter;
Spinal cord injuries
- From:
Academic Journal of Second Military Medical University
2013;34(4):398-402
- CountryChina
- Language:Chinese
-
Abstract:
Objective To develop a percutaneous technique with expandable balloon catheter for establishing a sheep model of acute cervical spinal cord compression injury. Methods Twelve adult male sheep were randomized into 3 groups: control (A, n = 4), 0. 6 mL compression (B, n = 4) and 1 mL compression (C, n = 4) groups. All animals received epidural balloon catheter (3Fr) insertion using a percutaneous trans-lumbosacral interlaminar space technique similar to the method used in vascular access for angiography. The balloon catheter was advanced under fluoroscopic guidance until its distal tip reached the C6/7 level. One week later, the balloons of group B and C were inflated by 0. 6 mL and 1 mL half-strength contrast material; the balloons were left inflated for 1-hour and then deflated. Animals in group A received no treatment. CT and MR images were taken before and after surgical procedures. Quantitative assessment of spine canal occupying rate was accomplished by using a software program based on CT results. Motor functions of animals were assessed by modified Tarlov scale. Two animals were sacrificed each time at 24 h and 48 h after inflation in each group. Spinal segments of the injured level were then obtained for pathologic examination. Results Balloon catheters were successfully inserted in all animals, and the spinal-canal-occupying rates were (9. 1±0. 2)% in group A, (9. 1±0. 2)% in group B, and (8. 9±0. 2)% in group C after insertion. After inflation, the rates increased to (45. 5 ± 2. 5)% in group B and (78. 3±2. 3) % in group C, and MRI findings indicated ventral compression of the cervical spinal cord. Hind limb movement remained normal after catheter insertion in all groups. Animals in group B and C became paraplegic after inflation, and a positive correlation between injection volume and Tarlov score was observed. Pathological results demonstrated neuron atrophy, increased gap around the neurons, mild demyelinated and vacuolar degeneration in both group B and C at C6/7 level 24 h after injury. Pathological changes deteriorated at 48 h after injury. Conclusion Percutaneous epidural balloon catheter insertion can avoid surgical exposure of normal tissues around the spinal cord, and it may serve as a method for establishing acute cervical spinal cord injury model simulating the clinical condition.
