Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática

Detalhes bibliográficos
Autor(a) principal: Câmara, Carlos Campos
Data de Publicação: 2009
Tipo de documento: Tese
Idioma: por
Título da fonte: Repositório Institucional da Universidade Federal do Ceará (UFC)
Texto Completo: http://www.repositorio.ufc.br/handle/riufc/2676
Resumo: Neurophatic pain conveys mechanisms of difficult understanding, which changes with the disease progress, jeopardizing the therapeutics. The chronic constriction of the sciatic nerve (CCSN) model mimics this condition. Gabapentin (GBP) is an anti-convulsive drug often used as analgesics to control neurophatic pain. Few reports exist on their effects in the inflammatory and regenerative activity of the nerve. TNF-α and IL-1β cytokines, although related to pain and inflammation, are also associated with early myelin and axonal fragmentos removal after nerve injury and thus contribute to nerve regeneration. This study aimed at evaluating the analgesics early treatment (80 min prior to CCSN and along 5-day treatment, 12h/12h) effects of GBP (30, 60, 120 mg/kg, given orally) by monitoring (before surgery, on the 3rd day and 5th day of post-surgery treatment, 12h to12h) the following behaviors (1) spontaneous behavior, suggestive of chronic pain: Scratching and Biting (2) motor and exploratory-related behaviors: Climbing, Rearing, and Walking, (3) induced-pain behaviors: mechanical allodynia (electronic von Frey) and cold allodynia (10ºC) in Wistar male rats (250-300g) with CCSN. CCSN animals treated with saline and pseudo-operated were used as controls. Another aim of this study was to evaluate the pro and anti-inflammatory effects of GBP (60 and 120mg/kg, given orally) by carragenin-induced paw edema in CCSN-free animals and yet nerve myeloperoxidase measurements under chronic constriction. The neural regenerative effects of GBP were indirectly evaluated by measuring TNF-α, IL-1β, IL-10, and myelin basic protein (PBM) expressions in the same protocol, as follows: 5th day of treatment following CCSN to draw nerves in order to quantify cytokines by ELISA and immunohistochemistry, and for MPB expression detected by Western blot and immunohistochemistry on the 5th and 15th. Results: On the 5th day, GBP, at doses of 30, 60 and 120mg, reduced the scratching time in the ipslateral paw of 86.76%*; 83.82%*; 80.09%* (*p<0.01) and an inhibition of the biting time of 56.27%; 90.53%*; 65.06% (*p<0.01) in the right side in comparison with the saline group. In addition, GBP alleviated mechanical allodynia causing increase paw retrieval thresholds of 225.42%*, 246.01%*, 309.20%* (*p <0.001) and the reduction of the pain scores for cold allodynia in the range of 18.19%; 21.29%; 42.26%* (*p < 0.01) in comparison with the saline group. GBP, at doses of 60 and 120mg, significantly increased spontaneous motricity in CCSN animals and controls suggesting excitatory effects rather than sedation. GBP (60 mg/kg) also caused relevant effects (p<0.001) in peritoneal cell migration, and a 982.16% increase in nerve myeloperoxidase expression and 53% increase in paw edema, as opposed to the saline control. Regarding nerve TNF-α expression, doses of 60 and 120mg caused significant increase of 120.95 % and 91.99% in comparison with the saline group (p<0.01). A dose of 60mg/kg caused 59.26% increase in IL-1β expression compared with the saline group (p<0.05). We found a 158% significant increase in PBM expression by western blots (0.298 ± 0.069 PBM/Act) on the 15th treatment-day with GPB in comparison with the saline control (0.116 ± 0.034 PBM/Act). Conclusions: 5-day GBP treatment, although with pro-inflammatory effects, was found to have significant pain killing effects by reducing chronic spontaneous pain behaviors and by alleviating mechanical and thermal allodynia in the early neuropathy course. By taking our relevant findings of increasing migration cell rates to the nerve injury site on the 5th day of the neuropathy and the nerve TNF and IL-1β expression with more macrophage and Schwann cell activation and supposedly more nerve growth factor release, along with higher PBM expression, altogether suggest that GBP may hasten the myelin and axonal fragmentos withdrawn, therefore contributing to axonal outgrowth and ultimately remyelinization.
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spelling Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropáticaAntinociceptive behavioral and regenerative study with gabapentin treatment in a model of experimental neuropathic painsNervo IsquiáticoDorAnticonvulsivantesNeurophatic pain conveys mechanisms of difficult understanding, which changes with the disease progress, jeopardizing the therapeutics. The chronic constriction of the sciatic nerve (CCSN) model mimics this condition. Gabapentin (GBP) is an anti-convulsive drug often used as analgesics to control neurophatic pain. Few reports exist on their effects in the inflammatory and regenerative activity of the nerve. TNF-α and IL-1β cytokines, although related to pain and inflammation, are also associated with early myelin and axonal fragmentos removal after nerve injury and thus contribute to nerve regeneration. This study aimed at evaluating the analgesics early treatment (80 min prior to CCSN and along 5-day treatment, 12h/12h) effects of GBP (30, 60, 120 mg/kg, given orally) by monitoring (before surgery, on the 3rd day and 5th day of post-surgery treatment, 12h to12h) the following behaviors (1) spontaneous behavior, suggestive of chronic pain: Scratching and Biting (2) motor and exploratory-related behaviors: Climbing, Rearing, and Walking, (3) induced-pain behaviors: mechanical allodynia (electronic von Frey) and cold allodynia (10ºC) in Wistar male rats (250-300g) with CCSN. CCSN animals treated with saline and pseudo-operated were used as controls. Another aim of this study was to evaluate the pro and anti-inflammatory effects of GBP (60 and 120mg/kg, given orally) by carragenin-induced paw edema in CCSN-free animals and yet nerve myeloperoxidase measurements under chronic constriction. The neural regenerative effects of GBP were indirectly evaluated by measuring TNF-α, IL-1β, IL-10, and myelin basic protein (PBM) expressions in the same protocol, as follows: 5th day of treatment following CCSN to draw nerves in order to quantify cytokines by ELISA and immunohistochemistry, and for MPB expression detected by Western blot and immunohistochemistry on the 5th and 15th. Results: On the 5th day, GBP, at doses of 30, 60 and 120mg, reduced the scratching time in the ipslateral paw of 86.76%*; 83.82%*; 80.09%* (*p<0.01) and an inhibition of the biting time of 56.27%; 90.53%*; 65.06% (*p<0.01) in the right side in comparison with the saline group. In addition, GBP alleviated mechanical allodynia causing increase paw retrieval thresholds of 225.42%*, 246.01%*, 309.20%* (*p <0.001) and the reduction of the pain scores for cold allodynia in the range of 18.19%; 21.29%; 42.26%* (*p < 0.01) in comparison with the saline group. GBP, at doses of 60 and 120mg, significantly increased spontaneous motricity in CCSN animals and controls suggesting excitatory effects rather than sedation. GBP (60 mg/kg) also caused relevant effects (p<0.001) in peritoneal cell migration, and a 982.16% increase in nerve myeloperoxidase expression and 53% increase in paw edema, as opposed to the saline control. Regarding nerve TNF-α expression, doses of 60 and 120mg caused significant increase of 120.95 % and 91.99% in comparison with the saline group (p<0.01). A dose of 60mg/kg caused 59.26% increase in IL-1β expression compared with the saline group (p<0.05). We found a 158% significant increase in PBM expression by western blots (0.298 ± 0.069 PBM/Act) on the 15th treatment-day with GPB in comparison with the saline control (0.116 ± 0.034 PBM/Act). Conclusions: 5-day GBP treatment, although with pro-inflammatory effects, was found to have significant pain killing effects by reducing chronic spontaneous pain behaviors and by alleviating mechanical and thermal allodynia in the early neuropathy course. By taking our relevant findings of increasing migration cell rates to the nerve injury site on the 5th day of the neuropathy and the nerve TNF and IL-1β expression with more macrophage and Schwann cell activation and supposedly more nerve growth factor release, along with higher PBM expression, altogether suggest that GBP may hasten the myelin and axonal fragmentos withdrawn, therefore contributing to axonal outgrowth and ultimately remyelinization.A dor neuropática possui mecanismos de difícil compreensão que se modificam com a sua evolução dificultando a terapêutica. O modelo por constrição crônica do nervo ciático (CCNC) simula esta condição. A gabapentina (GBP) é um anticonvulsivo muito utilizado como analgésico na dor neuropática e existem poucos relatos sobre seus efeitos na atividade inflamatória e regenerativa do nervo. As citocinas TNF-α e IL-1β estão relacionadas à dor, inflamação e regeneração neural. É objetivo deste estudo avaliar os efeitos antinociceptivos, inflamatórios e regenerativos do tratamento preventivo e contínuo (80 min antes da CCNC e depois ao longo de 5 dias de 12 em 12h) com a GBP (30, 60, 120 mg/kg, via oral) através da observação (antes, no 3º dia e no 5º dia após a CCNC) dos seguintes comportamentos: (1) espontâneos sugestivos de dor crônica: Scrathing (coçar-se) e Biting(morder-se) (2) relacionados à motriciadade e exploração: Climbing(escalar), Rearing(empinar-se), Walking(andando) (3) de dor induzida: alodínia mecânica (von Frey eletrônico) e alodínia ao frio (10º) em ratos machos Wistar (250-300g) com CCNC. Animais com CCNC tratados com salina e animais pseudo-operados foram utilizados como controles. Para avaliar os efeitos anti ou pró-inflamatórios da GBP (60, 120mg/kg, via oral) utilizou-se o modelo de edema de pata induzido por carragenina em animais sem CCNC e a dosagem de mieloperoxidase no nervo sob constrição crônica. Os efeitos neuro-regenerativos da GBP foram avaliados indiretamente através da expressão de TNF-α, IL-1β, IL-10, e da proteína básica de mielina (PBM) no mesmo protocolo, sendo que no 5º dia de tratamento após CCNC, foram feitas coletas dos nervos para dosagem destas citocinas através de ELISA e imunohistoquímica, e no 5º e 15º dia para expressão de PBM através de Western Blot e imunohistoquímica. Resultados: No 5º dia, as doses de GBP 30, 60 e 120mg provocaram redução de 86,76%*; 83,82%*; 80,09%* (*p < 0,01) no tempo de Scratching da pata ipslateral e uma inibição de 56,27%; 90,53%*; 65,06% (*p < 0,01) no tempo do Biting lado direito em relação ao grupo salina. Aliviaram a alodínia mecânica provocando aumentos do limiar de retirada da pata de 225,42%*, 246,01%*, 309,20%* (*p <0,001) e provocaram redução do escore de dor na alodínia ao frio em 18,19%; 21,29%; 42,26%* (*p < 0,01) em relação ao grupo salina. As doses de GBP 60 e 120mg provocaram aumentos significativos na motricidade espontânea de animais com CCNC e intactos sugerindo efeitos estimulantes e não sedativos. A GBP 60mg/kg também provocou efeitos relevantes (p<0,001) na migração de células visto pelo aumento de 982,16% na expressão da mieloperoxidase no nervo e pelo aumento de 53% no edema de pata em relação ao controle salina. Quanto à expressão do TNF-α no nervo as doses de 60 e 120mg provocaram aumentos de 120,95 % e de 91,99% em relação ao grupo salina (P< 0,01). Na expressão de IL-1β a dose de 60mg/kg provocou aumento de 59,26% em relação ao grupo salina (P< 0,05). No Western Blot ocorreu um aumento significativo de 158,06% da expressão de PBM (0,298 + 0,069 PBM/Act.) no nervo no 15º dia de tratamento com GBP em relação ao grupo salina (0,116 + 0,034 PBM/Act). Conclusões: O tratamento com GBP ao longo de cinco dias, apesar de seus efeitos pró-inflamatórios, demonstrou no 5º dia efeitos analgésicos significativos ao reduzir comportamentos espontâneos de dor crônica e aliviar a alodínia mecânica e térmica em estágio precoce da neuropatia. Considerando-se os efeitos relevantes da GBP no 5º dia de neuropatia no aumento da migração de células para o local da lesão, no aumento da expressão de TNF e IL-1β no nervo, o que levaria a maior ativação das células de Schwann, macrófagos, e maior liberação de fator de crescimento do nervo, e no aumento da expressão de PBM indicando uma ativa fragmentação da mielina, sugere-se que a GBP pode acelerar o processo de remoção dos fragmentos de mielina e axônios contribuindo assim para o posterior alongamento dos axônios e remielinização.Costa , Carlos Maurício de CastroOriá, Reinaldo BarretoCâmara, Carlos Campos2012-05-30T14:15:44Z2012-05-30T14:15:44Z2009info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/doctoralThesisapplication/pdfCAMARA, C. C. Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelos experimental de dor neuropática . 2009. 227 f. Tese (Doutorado em Farmacologia) - Faculdade de Medicina, Universidade Federal do Ceará, Fortaleza, 2009.http://www.repositorio.ufc.br/handle/riufc/2676porreponame:Repositório Institucional da Universidade Federal do Ceará (UFC)instname:Universidade Federal do Ceará (UFC)instacron:UFCinfo:eu-repo/semantics/openAccess2021-07-21T14:32:41Zoai:repositorio.ufc.br:riufc/2676Repositório InstitucionalPUBhttp://www.repositorio.ufc.br/ri-oai/requestbu@ufc.br || repositorio@ufc.bropendoar:2024-09-11T19:01:59.289825Repositório Institucional da Universidade Federal do Ceará (UFC) - Universidade Federal do Ceará (UFC)false
dc.title.none.fl_str_mv Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
Antinociceptive behavioral and regenerative study with gabapentin treatment in a model of experimental neuropathic pains
title Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
spellingShingle Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
Câmara, Carlos Campos
Nervo Isquiático
Dor
Anticonvulsivantes
title_short Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
title_full Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
title_fullStr Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
title_full_unstemmed Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
title_sort Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelo experimental de dor neuropática
author Câmara, Carlos Campos
author_facet Câmara, Carlos Campos
author_role author
dc.contributor.none.fl_str_mv Costa , Carlos Maurício de Castro
Oriá, Reinaldo Barreto
dc.contributor.author.fl_str_mv Câmara, Carlos Campos
dc.subject.por.fl_str_mv Nervo Isquiático
Dor
Anticonvulsivantes
topic Nervo Isquiático
Dor
Anticonvulsivantes
description Neurophatic pain conveys mechanisms of difficult understanding, which changes with the disease progress, jeopardizing the therapeutics. The chronic constriction of the sciatic nerve (CCSN) model mimics this condition. Gabapentin (GBP) is an anti-convulsive drug often used as analgesics to control neurophatic pain. Few reports exist on their effects in the inflammatory and regenerative activity of the nerve. TNF-α and IL-1β cytokines, although related to pain and inflammation, are also associated with early myelin and axonal fragmentos removal after nerve injury and thus contribute to nerve regeneration. This study aimed at evaluating the analgesics early treatment (80 min prior to CCSN and along 5-day treatment, 12h/12h) effects of GBP (30, 60, 120 mg/kg, given orally) by monitoring (before surgery, on the 3rd day and 5th day of post-surgery treatment, 12h to12h) the following behaviors (1) spontaneous behavior, suggestive of chronic pain: Scratching and Biting (2) motor and exploratory-related behaviors: Climbing, Rearing, and Walking, (3) induced-pain behaviors: mechanical allodynia (electronic von Frey) and cold allodynia (10ºC) in Wistar male rats (250-300g) with CCSN. CCSN animals treated with saline and pseudo-operated were used as controls. Another aim of this study was to evaluate the pro and anti-inflammatory effects of GBP (60 and 120mg/kg, given orally) by carragenin-induced paw edema in CCSN-free animals and yet nerve myeloperoxidase measurements under chronic constriction. The neural regenerative effects of GBP were indirectly evaluated by measuring TNF-α, IL-1β, IL-10, and myelin basic protein (PBM) expressions in the same protocol, as follows: 5th day of treatment following CCSN to draw nerves in order to quantify cytokines by ELISA and immunohistochemistry, and for MPB expression detected by Western blot and immunohistochemistry on the 5th and 15th. Results: On the 5th day, GBP, at doses of 30, 60 and 120mg, reduced the scratching time in the ipslateral paw of 86.76%*; 83.82%*; 80.09%* (*p<0.01) and an inhibition of the biting time of 56.27%; 90.53%*; 65.06% (*p<0.01) in the right side in comparison with the saline group. In addition, GBP alleviated mechanical allodynia causing increase paw retrieval thresholds of 225.42%*, 246.01%*, 309.20%* (*p <0.001) and the reduction of the pain scores for cold allodynia in the range of 18.19%; 21.29%; 42.26%* (*p < 0.01) in comparison with the saline group. GBP, at doses of 60 and 120mg, significantly increased spontaneous motricity in CCSN animals and controls suggesting excitatory effects rather than sedation. GBP (60 mg/kg) also caused relevant effects (p<0.001) in peritoneal cell migration, and a 982.16% increase in nerve myeloperoxidase expression and 53% increase in paw edema, as opposed to the saline control. Regarding nerve TNF-α expression, doses of 60 and 120mg caused significant increase of 120.95 % and 91.99% in comparison with the saline group (p<0.01). A dose of 60mg/kg caused 59.26% increase in IL-1β expression compared with the saline group (p<0.05). We found a 158% significant increase in PBM expression by western blots (0.298 ± 0.069 PBM/Act) on the 15th treatment-day with GPB in comparison with the saline control (0.116 ± 0.034 PBM/Act). Conclusions: 5-day GBP treatment, although with pro-inflammatory effects, was found to have significant pain killing effects by reducing chronic spontaneous pain behaviors and by alleviating mechanical and thermal allodynia in the early neuropathy course. By taking our relevant findings of increasing migration cell rates to the nerve injury site on the 5th day of the neuropathy and the nerve TNF and IL-1β expression with more macrophage and Schwann cell activation and supposedly more nerve growth factor release, along with higher PBM expression, altogether suggest that GBP may hasten the myelin and axonal fragmentos withdrawn, therefore contributing to axonal outgrowth and ultimately remyelinization.
publishDate 2009
dc.date.none.fl_str_mv 2009
2012-05-30T14:15:44Z
2012-05-30T14:15:44Z
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/doctoralThesis
format doctoralThesis
status_str publishedVersion
dc.identifier.uri.fl_str_mv CAMARA, C. C. Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelos experimental de dor neuropática . 2009. 227 f. Tese (Doutorado em Farmacologia) - Faculdade de Medicina, Universidade Federal do Ceará, Fortaleza, 2009.
http://www.repositorio.ufc.br/handle/riufc/2676
identifier_str_mv CAMARA, C. C. Estudo dos efeitos antinociceptivos, comportamentais e regenerativos do tratamento com gabapentina em modelos experimental de dor neuropática . 2009. 227 f. Tese (Doutorado em Farmacologia) - Faculdade de Medicina, Universidade Federal do Ceará, Fortaleza, 2009.
url http://www.repositorio.ufc.br/handle/riufc/2676
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language por
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dc.source.none.fl_str_mv reponame:Repositório Institucional da Universidade Federal do Ceará (UFC)
instname:Universidade Federal do Ceará (UFC)
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instname_str Universidade Federal do Ceará (UFC)
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