Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim

Introduction: Molecular mechanism of postoperative pain is unknown. Opioids have been found to be effective in reducing post-operative pain but with possible complications. Gabapentin has proven to be effective in reducing both postoperative pain and reverse the antinociceptive opioids tolerance inc...

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Main Author: Ibrahim, Ban Kahtan
Format: Thesis
Language:English
Published: 2013
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Online Access:http://ir.uitm.edu.my/id/eprint/20427/1/TM_BAN%20KAHTAN%20IBRAHIM%20DS%2013_5.pdf
http://ir.uitm.edu.my/id/eprint/20427/
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spelling my.uitm.ir.204272018-07-05T05:27:29Z http://ir.uitm.edu.my/id/eprint/20427/ Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim Ibrahim, Ban Kahtan Oral and dental medicine. Pathology. Diseases Prosthetic dentistry. Prosthodontics Introduction: Molecular mechanism of postoperative pain is unknown. Opioids have been found to be effective in reducing post-operative pain but with possible complications. Gabapentin has proven to be effective in reducing both postoperative pain and reverse the antinociceptive opioids tolerance including reducing opiate withdrawal symptoms. In dentistry postoperative pain is a common complain that needs to be alleviated or well controlled. Furthermore, there is no established dental post-surgical animal pain model to study post-surgical dental pain. Therefore we will use gabapentin as a tool, in rat molar extraction model to identify the neuroanatomical circuit of post-operative dental pain and compare this model with an established post-operative pain model. Hypothesis: Identifying the novel neural circuitry on which gabapentin act to regulate post-operative dental pain may reveal the neuro-anatomical and neuro-modulatory circuit of post-surgical dental pain and also comparing this model at molecular level with established post-surgical pain may allow us to validate dental post-surgical pain model. Objectives: l.To study the validity of rat molar extraction to use as an animal model for the post-operative dental pain. 2. To identify neuro- anatomical sites of post - surgical dental pain. 3. To identify neuro-modulatory site of post- surgical dental pain. Materials and Methods: We will use a rat (Sprague dawly rats-250g-300g) model of molar extraction to study post-surgical dental pain. Using c-Fos immunohistochemistry we will localize the gabapentin induced neuro-modulatory sites to block the postoperative activation of rat CNS by means of c-Fos expression. Results and Conclusion: 1. The results of the present study have demonstrated that the rat molar extraction shows same behaviour as the established post-surgical pain model at molecular level. Therefore molar extraction on rat can be used as an animal model to study post-operative dental pain. 2. Our results also have suggested that further study is essential to identify the underlying molecular circuit through which gabapentin neutralized the rat molar extraction induced activation of hypothalamus. In future, identifying the molecule(s) responsible to modify the activation of hypothalamus may allow us to reveal the molecular mechanism and neuro-modulatory circuit of post-operative dental pain system. Keywords: c-Fos, gabapentin, rat, post- surgical dental pain, central nervous system 2013 Thesis NonPeerReviewed text en http://ir.uitm.edu.my/id/eprint/20427/1/TM_BAN%20KAHTAN%20IBRAHIM%20DS%2013_5.pdf Ibrahim, Ban Kahtan (2013) Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim. Masters thesis, Universiti Teknologi MARA.
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Oral and dental medicine. Pathology. Diseases
Prosthetic dentistry. Prosthodontics
spellingShingle Oral and dental medicine. Pathology. Diseases
Prosthetic dentistry. Prosthodontics
Ibrahim, Ban Kahtan
Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
description Introduction: Molecular mechanism of postoperative pain is unknown. Opioids have been found to be effective in reducing post-operative pain but with possible complications. Gabapentin has proven to be effective in reducing both postoperative pain and reverse the antinociceptive opioids tolerance including reducing opiate withdrawal symptoms. In dentistry postoperative pain is a common complain that needs to be alleviated or well controlled. Furthermore, there is no established dental post-surgical animal pain model to study post-surgical dental pain. Therefore we will use gabapentin as a tool, in rat molar extraction model to identify the neuroanatomical circuit of post-operative dental pain and compare this model with an established post-operative pain model. Hypothesis: Identifying the novel neural circuitry on which gabapentin act to regulate post-operative dental pain may reveal the neuro-anatomical and neuro-modulatory circuit of post-surgical dental pain and also comparing this model at molecular level with established post-surgical pain may allow us to validate dental post-surgical pain model. Objectives: l.To study the validity of rat molar extraction to use as an animal model for the post-operative dental pain. 2. To identify neuro- anatomical sites of post - surgical dental pain. 3. To identify neuro-modulatory site of post- surgical dental pain. Materials and Methods: We will use a rat (Sprague dawly rats-250g-300g) model of molar extraction to study post-surgical dental pain. Using c-Fos immunohistochemistry we will localize the gabapentin induced neuro-modulatory sites to block the postoperative activation of rat CNS by means of c-Fos expression. Results and Conclusion: 1. The results of the present study have demonstrated that the rat molar extraction shows same behaviour as the established post-surgical pain model at molecular level. Therefore molar extraction on rat can be used as an animal model to study post-operative dental pain. 2. Our results also have suggested that further study is essential to identify the underlying molecular circuit through which gabapentin neutralized the rat molar extraction induced activation of hypothalamus. In future, identifying the molecule(s) responsible to modify the activation of hypothalamus may allow us to reveal the molecular mechanism and neuro-modulatory circuit of post-operative dental pain system. Keywords: c-Fos, gabapentin, rat, post- surgical dental pain, central nervous system
format Thesis
author Ibrahim, Ban Kahtan
author_facet Ibrahim, Ban Kahtan
author_sort Ibrahim, Ban Kahtan
title Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
title_short Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
title_full Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
title_fullStr Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
title_full_unstemmed Validation of animal model for molecular study of post-surgical pain / Ban Kahtan Ibrahim
title_sort validation of animal model for molecular study of post-surgical pain / ban kahtan ibrahim
publishDate 2013
url http://ir.uitm.edu.my/id/eprint/20427/1/TM_BAN%20KAHTAN%20IBRAHIM%20DS%2013_5.pdf
http://ir.uitm.edu.my/id/eprint/20427/
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score 13.211869