Penelope L. Kuhn scite author profile

A mouse model of spinal cord injury (SCI) could further increase our basic understanding of the mechanisms involved in injury and recovery by taking advantage of naturally-occurring and genetically engineered mutations available in mice. We have, therefore, investigated whether methods used to produce and evaluate graded experimental contusive SCI in the rat could be modified to produce a mouse model of traumatic SCI. C57BL6 mice were anesthetized with 2,2,2-tribromoethanol and a restricted laminectomy performed at the T8 vertebral level. The spinal column was stabilized and a weight drop technique used to produce contusive injury. Experimental groups were distinguished by the amount of weight or the height from which the weight was dropped onto an impounder resting on the dura (1 g x 2.5 cm, 2 g x 2.5 cm, 3 g x 2.5 cm, and 3 g x 5.0 cm). Functional deficits over time were examined up to 28 days after SCI by testing hindlimb reflex responses and coordinated motor function. Chronic lesion histopathology was evaluated by light microscopy and analyzed with morphometric techniques. All groups demonstrated profound functional deficits after injury followed by gradual recovery. Recovery correlated with the weight dropped and percent of white matter spared that was 41.3+/-6.0% (mean +/- SEM) in the 2 g x 2.5 cm group and 24.3+/-5.0% in the 3 g x 2.5 cm group. A replicate experiment confirmed reproducibility of the injury. This new mouse model of contusive SCI could pave the way for in vivo studies of the effect of genetic modifications produced by specific mutations on injury and recovery processes after spinal cord trauma.

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Motor function analysis of myelin mutant mice using a rotarod

Kuhn

Petroulakis

Zazanis

et al. 1995

Intl J of Devlp Neuroscience

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We have examined motor control in normal and shiverer mutant mice using the rotarod assay, a forced motor activity which tests for balance and co-ordination. Shiverer mice carry a deletion of the myelin basic protein (MBP) gene, resulting in CNS dysmyelination and characteristic motor dysfunction. Homozygous mutant mice had a significant increase in cumulative falls from the rotarod relative to heterozygous mice. Non-acclimated animals of both genotypes showed progressive improvement in performance when tested on successive days. The rotarod test also discriminated shiverer mutants from animals that received gene therapy intervention. Shiverer animals carrying an MBP transgene showed gene-dosage-dependent improvements in motor function, and mutants which received thalamic transplants of wild type oligodendrocyte precursor cells showed improvement relative to sham operated and non-transplanted controls. Thus the rotarod is a sensitive measure of motor function in hypomyelinated mice, and may be useful for assessing the results of experimental manipulations including transgenic gene therapy and cell transplantation.

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Penelope L. Kuhn

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Motor function analysis of myelin mutant mice using a rotarod

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