Literature DB >> 1255233

Possible mechanisms for observed pathophysiological variability in experimental spinal cord injury by the method of Allen.

S H Koozekanani, W M Vise, R M Hashemi, R B McGhee.   

Abstract

Experimental spinal cord injuries were induced in dogs by dropping calibrated weights through a vented tube onto a small impounder resting on the surgically exposed cord. The motion of the impounder and the drop-mass were recorded by high-speed photography and the resulting data were compared to those obtained from a computer simulation of the dynamics of the injury mechanism. It is concluded that this method of induced spinal cord injuries may yield markedly different degrees of cord compression depending upon the parameters of the animal material and apparatus even when the gm-cm of impact energy is maintained at a constant value. Some approaches to standardization of this injury model are suggested.

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Year:  1976        PMID: 1255233     DOI: 10.3171/jns.1976.44.4.0429

Source DB:  PubMed          Journal:  J Neurosurg        ISSN: 0022-3085            Impact factor:   5.115


  11 in total

1.  Electromechanical impactor for producing experimental spinal cord injury in animals.

Authors:  D H Noyes
Journal:  Med Biol Eng Comput       Date:  1987-05       Impact factor: 2.602

Review 2.  The developing landscape of diagnostic and prognostic biomarkers for spinal cord injury in cerebrospinal fluid and blood.

Authors:  C H Hulme; S J Brown; H R Fuller; J Riddell; A Osman; J Chowdhury; N Kumar; W E Johnson; K T Wright
Journal:  Spinal Cord       Date:  2016-12-20       Impact factor: 2.772

3.  Mesenchymal Stem Cell Derived Exosomes Suppress Neuronal Cell Ferroptosis Via lncGm36569/miR-5627-5p/FSP1 Axis in Acute Spinal Cord Injury.

Authors:  Chenglong Shao; Yu Chen; Tengyue Yang; Haibiao Zhao; Dongzhe Li
Journal:  Stem Cell Rev Rep       Date:  2022-03-07       Impact factor: 5.739

4.  An ovine model of spinal cord injury.

Authors:  Saul Wilson; Kingsley O Abode-Iyamah; John W Miller; Chandan G Reddy; Sina Safayi; Douglas C Fredericks; Nicholas D Jeffery; Nicole A DeVries-Watson; Sara K Shivapour; Stephanus Viljoen; Brian D Dalm; Katherine N Gibson-Corley; Michael D Johnson; George T Gillies; Matthew A Howard
Journal:  J Spinal Cord Med       Date:  2016-10-19       Impact factor: 1.985

5.  Evaluation of spinal cord injury animal models.

Authors:  Ning Zhang; Marong Fang; Haohao Chen; Fangming Gou; Mingxing Ding
Journal:  Neural Regen Res       Date:  2014-11-15       Impact factor: 5.135

6.  Topiramate as a neuroprotective agent in a rat model of spinal cord injury.

Authors:  Firat Narin; Sahin Hanalioglu; Huseyin Ustun; Kamer Kilinc; Burcak Bilginer
Journal:  Neural Regen Res       Date:  2017-12       Impact factor: 5.135

7.  Investigation of the blood proteome in response to spinal cord injury in rodent models.

Authors:  Charlotte H Hulme; Heidi R Fuller; John Riddell; Sally L Shirran; Catherine H Botting; Aheed Osman; Karina T Wright
Journal:  Spinal Cord       Date:  2021-10-02       Impact factor: 2.772

8.  Grape Seed Proanthocyanidins Exert a Neuroprotective Effect by Regulating Microglial M1/M2 Polarisation in Rats with Spinal Cord Injury.

Authors:  Wen-Zhao Liu; Zhan-Jun Ma; Ji-He Kang; Ai-Xin Lin; Zhao-Heng Wang; Hai-Wei Chen; Xu-Dong Guo; Xue-Gang He; Xue-Wen Kang
Journal:  Mediators Inflamm       Date:  2022-08-04       Impact factor: 4.529

9.  Mechanisms underlying the promotion of functional recovery by deferoxamine after spinal cord injury in rats.

Authors:  Jian Hao; Bo Li; Hui-Quan Duan; Chen-Xi Zhao; Yan Zhang; Chao Sun; Bin Pan; Chang Liu; Xiao-Hong Kong; Xue Yao; Shi-Qing Feng
Journal:  Neural Regen Res       Date:  2017-06       Impact factor: 5.135

10.  Neurotrophic factor and Trk signaling mechanisms underlying the promotion of motor recovery after acute spinal cord injury in rats.

Authors:  Hua Fang; Chong Liu; Miao Yang; Huafeng Li; Fangxiang Zhang; Weijing Zhang; Jianping Zhang
Journal:  Exp Ther Med       Date:  2017-05-29       Impact factor: 2.447
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