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Literature DB >> 23820159

Improved rat spinal cord injury model using spinal cord compression by percutaneous method.

Wook-Hun Chung¹, Jae-Hoon Lee, Dai-Jung Chung, Wo-Jong Yang, A-Jin Lee, Chi-Bong Choi, Hwa-Seok Chang, Dae-Hyun Kim, Hyo Jin Chung, Hyun Jung Suh, Soo-Han Hwang, Hoon Han, Sun Hee Do, Hwi-Yool Kim.

Abstract

Here, percutaneous spinal cord injury (SCI) methods using a balloon catheter in adult rats are described. A balloon catheter was inserted into the epidural space through the lumbosacral junction and then inflated between T9-T10 for 10 min under fluoroscopic guidance. Animals were divided into three groups with respect to inflation volume: 20 μL (n = 18), 50 μL (n = 18) and control (Fogarty catheter inserted but not inflated; n = 10). Neurological assessments were then made based on BBB score, magnetic resonance imaging and histopathology. Both inflation volumes produced complete paralysis. Gradual recovery of motor function occurred when 20 μL was used, but not after 50 μL was applied. In the 50 μL group, all gray and white matter was lost from the center of the lesion. In addition, supramaximal damage was noted, which likely prevented spontaneous recovery. This percutaneous spinal cord compression injury model is simple, rapid with high reproducibility and the potential to serve as a useful tool for investigation of pathophysiology and possible protective treatments of SCI in vivo.

Entities: Chemical Disease Species

Keywords: balloon compression; laminectomy-free; magnetic resonance imaging; percutaneous spinal cord injury; rat

Mesh：

Year: 2013 PMID： 23820159 PMCID： PMC3788159 DOI： 10.4142/jvs.2013.14.3.329

Source DB: PubMed Journal: J Vet Sci ISSN： 1229-845X Impact factor: 1.672

29 in total

1. A model for acute, chronic, and delayed graded compression of the dog cauda equina. Presentation of the gross, microscopic, and vascular anatomy of the dog cauda equina and accuracy in pressure transmission of the compression model.

Authors: S Konno; S Yabuki; K Sato; K Olmarker; S Kikuchi
Journal: Spine (Phila Pa 1976) Date: 1995-12-15 Impact factor: 3.468

2. Validation of the weight-drop contusion model in rats: a comparative study of human spinal cord injury.

Authors: G A Metz; A Curt; H van de Meent; I Klusman; M E Schwab; V Dietz
Journal: J Neurotrauma Date: 2000-01 Impact factor: 5.269

3. MASCIS evaluation of open field locomotor scores: effects of experience and teamwork on reliability. Multicenter Animal Spinal Cord Injury Study.

Authors: D M Basso; M S Beattie; J C Bresnahan; D K Anderson; A I Faden; J A Gruner; T R Holford; C Y Hsu; L J Noble; R Nockels; P L Perot; S K Salzman; W Young
Journal: J Neurotrauma Date: 1996-07 Impact factor: 5.269

4. Establishment of a canine spinal cord injury model induced by epidural balloon compression.

Authors: Ji Hey Lim; Chang Su Jung; Ye Eun Byeon; Wan Hee Kim; Jung Hee Yoon; Kyung Sun Kang; Oh Kyeong Kweon
Journal: J Vet Sci Date: 2007-03 Impact factor: 1.672

5. Dynamic contrast-enhanced MRI of experimental spinal cord injury: in vivo serial studies.

Authors: M Bilgen; R Abbe; P A Narayana
Journal: Magn Reson Med Date: 2001-04 Impact factor: 4.668

6. Limited functional recovery in rats with complete spinal cord injury after transplantation of whole-layer olfactory mucosa: laboratory investigation.

Authors: Masanori Aoki; Haruhiko Kishima; Kazuhiro Yoshimura; Masahiro Ishihara; Masaki Ueno; Katsuhiko Hata; Toshihide Yamashita; Koichi Iwatsuki; Toshiki Yoshimine
Journal: J Neurosurg Spine Date: 2010-02

7. Development of an improved canine model of percutaneous spinal cord compression injury by balloon catheter.

Authors: Jae-Hoon Lee; Chi-Bong Choi; Dai-Jung Chung; Eun-Hee Kang; Hwa-Seok Chang; Soo-Han Hwang; Hoon Han; Bo-Young Choe; Jung-Hyang Sur; Soo-Yeol Lee; Hwi-Yool Kim
Journal: J Neurosci Methods Date: 2007-08-07 Impact factor: 2.390

8. Transplantation of a combination of autologous neural differentiated and undifferentiated mesenchymal stem cells into injured spinal cord of rats.

Authors: M S Pedram; M M Dehghan; M Soleimani; D Sharifi; S H Marjanmehr; Z Nasiri
Journal: Spinal Cord Date: 2009-12-15 Impact factor: 2.772

9. Early functional outcomes and histological analysis after spinal cord compression injury in rats.

Authors: Nicolas Lonjon; Pascal Kouyoumdjian; Monica Prieto; Luc Bauchet; Henri Haton; Manuel Gaviria; Alain Privat; Florence E Perrin
Journal: J Neurosurg Spine Date: 2010-01

10. Clip compression model is useful for thoracic spinal cord injuries: histologic and functional correlates.

Authors: Peter C Poon; Dimpy Gupta; Molly S Shoichet; Charles H Tator
Journal: Spine (Phila Pa 1976) Date: 2007-12-01 Impact factor: 3.468

5 in total

1. Expression of neurotrophic factors in injured spinal cord after transplantation of human-umbilical cord blood stem cells in rats.

Authors: Hyo-jin Chung; Wook-hun Chung; Jae-Hoon Lee; Dai-Jung Chung; Wo-Jong Yang; A-Jin Lee; Chi-Bong Choi; Hwa-Seok Chang; Dae-Hyun Kim; Hyun Jung Suh; Dong-Hun Lee; Soo-Han Hwang; Sun Hee Do; Hwi-Yool Kim
Journal: J Vet Sci Date: 2016-03-22 Impact factor: 1.672

2. What is the optimal sequence of decompression for multilevel noncontinuous spinal cord compression injuries in rabbits?

Authors: Chaohua Yang; Baoqing Yu; Fenfen Ma; Huiping Lu; Jianmin Huang; Qinghua You; Bin Yu; Jianlan Qiao; Jianjun Feng
Journal: BMC Neurol Date: 2017-02-23 Impact factor: 2.474