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Construction of rat spinal cord injury model based on Allen’s animal model

The aim of this study is to explore the construction of rat spinal cord injury model guided by Allen's model. Methods: Male rats aged 4–5 weeks and weighing about 250 g are selected as subjects in the Animal Laboratory Center of XX Hospital. Rats are divided into two groups, which are experimen...

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Autores principales: Li, Shuliang, Zhou, Jiangbo, Zhang, Jianjun, Wang, Dong, Ma, Jingjian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6923460/
https://www.ncbi.nlm.nih.gov/pubmed/31889806
http://dx.doi.org/10.1016/j.sjbs.2019.09.033
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author Li, Shuliang
Zhou, Jiangbo
Zhang, Jianjun
Wang, Dong
Ma, Jingjian
author_facet Li, Shuliang
Zhou, Jiangbo
Zhang, Jianjun
Wang, Dong
Ma, Jingjian
author_sort Li, Shuliang
collection PubMed
description The aim of this study is to explore the construction of rat spinal cord injury model guided by Allen's model. Methods: Male rats aged 4–5 weeks and weighing about 250 g are selected as subjects in the Animal Laboratory Center of XX Hospital. Rats are divided into two groups, which are experimental group 1 and experimental group 2, respectively, so as to construct spinal cord injury model in rats. The first group is given 300 g.cm hitting force of T10 spinal cord, and the second group is given 500 g.cm hitting force of T10 spinal cord. Within 25 days after spinal cord injury in Allen's rats, the survival, neurological function, diet, motor ability, tactile ability and auditory ability of the two groups are monitored and evaluated daily. Results: In terms of survival, the survival rate of rats in group 1 is 85%, while that of rats in group 2 is 21%, and there is a concentrated death phenomenon in group 2. In terms of neurological function recovery, experimental group 1 is stable and gets 7 points and experimental group 2 is stable and gets 3 points. In terms of diet, the experimental group 1 is stable and gets 5 points and the experimental group 2 is stable and gets 2 points. In terms of motor ability, the experimental group 1 is stable and gets 5 points and the experimental group 2 is stable and gets 2 points. In tactile sense, experimental group 1 is stable and gets 17 points and experimental group 2 is stable and gets 12 points. It can be seen that the post-operative recovery ability of the experimental group 1 is better than that of the experimental group 2. Conclusion: Under the guidance of Allen's model, compared with the group 2, the experimental group 1 of the rat spinal cord injury model has better recovery in each index. It can be seen that the smaller impact strength is more beneficial to the recovery of rats after spinal cord injury surgery.
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spelling pubmed-69234602019-12-30 Construction of rat spinal cord injury model based on Allen’s animal model Li, Shuliang Zhou, Jiangbo Zhang, Jianjun Wang, Dong Ma, Jingjian Saudi J Biol Sci Article The aim of this study is to explore the construction of rat spinal cord injury model guided by Allen's model. Methods: Male rats aged 4–5 weeks and weighing about 250 g are selected as subjects in the Animal Laboratory Center of XX Hospital. Rats are divided into two groups, which are experimental group 1 and experimental group 2, respectively, so as to construct spinal cord injury model in rats. The first group is given 300 g.cm hitting force of T10 spinal cord, and the second group is given 500 g.cm hitting force of T10 spinal cord. Within 25 days after spinal cord injury in Allen's rats, the survival, neurological function, diet, motor ability, tactile ability and auditory ability of the two groups are monitored and evaluated daily. Results: In terms of survival, the survival rate of rats in group 1 is 85%, while that of rats in group 2 is 21%, and there is a concentrated death phenomenon in group 2. In terms of neurological function recovery, experimental group 1 is stable and gets 7 points and experimental group 2 is stable and gets 3 points. In terms of diet, the experimental group 1 is stable and gets 5 points and the experimental group 2 is stable and gets 2 points. In terms of motor ability, the experimental group 1 is stable and gets 5 points and the experimental group 2 is stable and gets 2 points. In tactile sense, experimental group 1 is stable and gets 17 points and experimental group 2 is stable and gets 12 points. It can be seen that the post-operative recovery ability of the experimental group 1 is better than that of the experimental group 2. Conclusion: Under the guidance of Allen's model, compared with the group 2, the experimental group 1 of the rat spinal cord injury model has better recovery in each index. It can be seen that the smaller impact strength is more beneficial to the recovery of rats after spinal cord injury surgery. Elsevier 2019-12 2019-10-16 /pmc/articles/PMC6923460/ /pubmed/31889806 http://dx.doi.org/10.1016/j.sjbs.2019.09.033 Text en © 2019 Published by Elsevier B.V. on behalf of King Saud University. http://creativecommons.org/licenses/by-nc-nd/4.0/ This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Article
Li, Shuliang
Zhou, Jiangbo
Zhang, Jianjun
Wang, Dong
Ma, Jingjian
Construction of rat spinal cord injury model based on Allen’s animal model
title Construction of rat spinal cord injury model based on Allen’s animal model
title_full Construction of rat spinal cord injury model based on Allen’s animal model
title_fullStr Construction of rat spinal cord injury model based on Allen’s animal model
title_full_unstemmed Construction of rat spinal cord injury model based on Allen’s animal model
title_short Construction of rat spinal cord injury model based on Allen’s animal model
title_sort construction of rat spinal cord injury model based on allen’s animal model
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6923460/
https://www.ncbi.nlm.nih.gov/pubmed/31889806
http://dx.doi.org/10.1016/j.sjbs.2019.09.033
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