Investigação da fisiopatogenia de modelos de dor neuropática trigeminal em ratos

Oliveira, Fabricio Finamor de

January 2016

Neuralgia trigeminal (NT) é um tipo de dor neuropática orofacial intensa e debilitante sentida ao longo do nervo trigêmeo. Seu diagnóstico é meramente clínico, sem exames específicos, o que dificulta a presteza e eficácia do tratamento. O sintoma mais característico é alodínia mecânica relacionada à sensibilização central. Seu tratamento é farmacológico e/ou cirúrgico, no entanto pode trazer poucos benefícios e/ou importantes efeitos colaterais sem a garantia de remissão total dos sintomas. No tratamento farmacológico, os anticonvulsivantes são fármacos de primeira linha de tratamento, mas também são obtidas respostas de melhora com o uso de fármacos ansiolíticos e opioides. A dificuldade no tratamento da NT se deve, em parte, à falta de compreensão dos mecanismos envolvidos na geração da dor; sendo, desta forma, imprescindível a busca de um melhor entendimento da fisiopatologia da NT buscando identificar as vias envolvidas no processo de dor. Sendo assim, o objetivo deste estudo foi avaliar o possível envolvimento das vias gabaérgica, glutamatérgica e opioidérgica na fisiopatogenia de um modelo de neuralgia trigeminal em ratos. A resposta nociceptiva dos animais foi avaliada por meio do teste de von Frey eletrônicoantes e após a administração de agonistas gabaérgicos e opioidérgico e de antagonista glutamatérgico. Além da a resposta nociceptiva, foram avaliados os níveis de fator neurotrófico derivado do cérebro (BDNF) em gânglio trigeminal, tronco encefálico e córtex pré-frontal. Todos os procedimentos experimentais foram realizados na Unidade de Experimentação Animal (UEA), Unidade de Análises Moleculares e de Proteínas (UAMP) do Hospital de Clínicas de Porto Alegre (HCPA). A indução da dor neuropática foi por constrição crônica do nervo infraorbitário (CCI-ION) proposto por Imamura em 1997 adaptado (Imamura Y., Kawamoto H., Nakanishi O. Charactherization of heat-hiperalgesia in experimental trigeminal neuropathy in rats. Exp Brain Res, 1997; 116: 97-103.). Para isso foram utilizados 112 ratos Wistar, machos divididos para o procedimento cirúrgico em 3 grupos: Controle Total, Dor e Sham. Quatorze dias após o procedimento cirúrgico, tempo necessário para o desenvolvimento da dor neuropática, realizamos dois protocolos e dividimos os grupos em: protocolo 1: controle veículo, cirurgia sham veículo, cirurgia sham agonista benzodiazepínico, cirurgia sham antagonista glutamatérgico, dor veículo, dor agonista benzodiazepínico, dor antagonista glutamatérgico; protocolo 2: controle veículo, cirurgia sham veículo, cirurgia sham agonista gabaérgico, cirurgia sham agonista opioidérgico, dor veículo, dor agonista gabaérgico, dor agonista opioidérgico. Os animais dos grupos sham sofreram apenas incisão cirúrgica, sem constrição do nervo. Durante o procedimento cirúrgico a indução anestésica foi feita com cetamina (50mg/kg) e xilazina (5mg/kg) e a manutenção, com isoflurano 2-3%. O controle da dor pós-operatória foi obtido com cloridrato de tramadol (10mg/kg) no intervalo de 12h por 48h. A resposta hiperalgésica mecânica (von Frey) foi avaliada antes da indução do modelo (medida basal), 7 e 14 dias após cirurgia, pré-administração dos fármacos, 15,30 e 60 minutos após administração dos fármacos: veículo - solução salina; agonista benzodiazepínico – diazepam (2 mg/kg); antagonista glutamatérgico - MK- 801 (0,25mg/Kg), agonista opioidérgico – morfina (5,0 mg/kg) e agonista gabaérgico – fenobarbital (100mg/kg). Os dados foram analisados por Equações Estimativas Generalizadas e expressos em média+EPM. Todos os procedimentos foram aprovados pelo CEUA/HCPA e CEUA/UFRGS sob número: 14-0604 e 29310, respectivamente. Inicialmente foram realizados testes para verificação do modelo de dor, foi observado que 14 dias após cirurgia de constrição do nervo infraorbitário, os animais do grupo dor apresentaram redução nos limiares de retirada da face no teste de von Frey facial comparado aos grupos controle e sham [GEE: interação grupo x tempo (Waldχ2=15,81; 2, P<0,05)]. Após o estabelecimento do modelo, foram realizados testes nociceptivos para avaliação das vias envolvidas na neuralgia trigeminal, observou-se interação grupo x tempo (Wald _2=175,74;18, P<0,01). No protocolo 1, os animais do grupo dor que receberam agonista benzodiazepínico (diazepam) apresentaram aumento no limiar nociceptivo a partir de 15 minutos após administração e este resultado permaneceu por até 60 minutos. Os animais do grupo dor que receberam antagonista glutamatérgico (MK-801) apresentaram aumento no limiar de retirada da face somente na avaliação realizada 60 minutos após a administração do fármaco. No protocolo 2, análise estatística mostrou interação entre as variáveis tempo x grupo (Wald χ2=657,53;18, P<0,01), os animais do grupo dor que receberam fenobarbital apresentaram aumento no limiar nociceptivo a partir de 15 minutos após administração e este resultado permaneceu por até 60 minutos. Por outro lado, os animais que receberam morfina apresentaram um aumento no limiar nociceptivo significativamente maior que os animais que receberam fenobarbital, no entanto ambos os fármacos reverteram a hiperalgesia induzida pela exposição ao modelo de dor. Na análise bioquímica, em córtex e tronco encefálico foi observado aumento nos níveis de BDNF tanto nos animais submetidos ao modelo de NT quanto aos que foram expostos a cirurgia sham (ANOVA de uma via/SNK, F(2,22)=13,46; F(2,25)=6,08, P<0,05, respectivamente. Em nível periférico foi observado aumento nos níveis de BDNF em gânglio trigeminal nos animais submetidos ao modelo de NT (ANOVA de uma via/SNK,F(2,22)=4,09; P<0,05). Em soro não foi observada diferença nos níveis de BDNF entre os grupos (ANOVA de uma via, P>0,05). Com base nos resultados encontrados, este estudo sugere que há o envolvimento das vias gabaérgica, glutamatérgica e opioidergica no processamento da dor neuropática orofacial (neuralgia trigeminal) sugerindo que há funcionalidade dos receptores testados. No entanto, estes agonistas gabaérgicos não induziram analgesia nos animais controles e cirurgia sham sugerindo uma alteração na liberação ou na síntese de GABA nos animais com NT. Neste estudo, não foram realizadas análises de expressão e quantificação de receptores, apenas avaliou-se a resposta nociceptiva e os níveis de BDNF centrais e periféricos. De acordo com estes achados a via gabaérgica teve uma resposta mais rápida que a via glutamatérgica. Alguns estudos demonstram que os receptores glutamatérgicos estão localizados em fibras não mielinizadas na periferia isto pode justificar o atraso na resposta dos animais que receberam antagonista glutamatérgico em nosso estudo. Quanto aos níveis de BDNF observamos que há um aumento desta neurotrofina nos animais submetidos ao modelo de NT sugerindo um envolvimento deste neuromodulador em eventos neuroplásticos da NT. / Trigeminal neuralgia (TN) is a type of intense and debilitating orofacial neuropathic pain felt along the trigeminal nerve. The diagnosis is purely clinical, without specific tests, which makes the promptness and effectiveness of treatment. The most characteristic symptom is mechanical allodynia related to central sensitization. Its treatment is pharmacological and / or surgical treatment, however can bring few benefits and / or significant side effects without the guarantee of complete remission of symptoms. In drug treatment, the anticonvulsant drug are first-line treatment, but also enhances responses are obtained with the use of anxiolytic drugs and opioids. The difficulty in treating NT is due in part to the lack of understanding of the mechanisms involved in the generation of pain; It is thus essential to search for a better understanding of the pathophysiology NT seeking to identify the pathways involved in pain process. Thus, the aim of this study was to evaluate the possible involvement of GABAergic pathways, glutamatergic and opioidergic in the pathogenesis of a model of trigeminal neuralgia in rats. The nociceptive response of the animals was assessed using the von Frey test eletrônicoantes and after administration of opioid agonists and GABAergic and glutamatergic antagonist. In the nociceptive response was evaluated derived neurotrophic factor levels in the brain (BDNF) in the trigeminal ganglia, brainstem, and prefrontal cortex. All experimental procedures were performed in the Animal Experimentation Unit (UEA), Unit of Analysis and Molecular Protein (UAMP) Porto Alegre Clinical Hospital (HCPA). The induction of neuropathic pain was by chronic constriction of the infraorbital nerve (CCI-ION) proposed by Imamura in 1997 adapted. For that they were used 112 male Wistar rats divided into the surgical procedure into 3 groups: Full Control, Pain and Sham. Fourteen days after surgery, time required for the development of neuropathic pain, performed two protocols and divided groups: Protocol 1: vehicle control, sham surgery vehicle, sham surgery benzodiazepine agonist, sham surgery glutamatergic antagonist, vehicle pain, agonist benzodiazepine pain and antagonist glutamatergic pain. Protocol 2: vehicle control, vehicle sham surgery, sham surgery gabaergic agonist, sham surgery opioid agonist, vehicle pain, gabaergic agonist pain, opioid agonist pain. The animals of the sham group underwent only surgical incision without nerve constriction. During surgery anesthesia was induced with ketamine (50 mg / kg) and xylazine (5 mg / kg) and maintained with isoflurane 2-3%. The control of postoperative pain has been obtained with tramadol hydrochloride (10mg / kg) at 12h intervals for 48 hours. The mechanical hyperalgesic response (von Frey) was assessed before induction model (baseline measurement), 7 and 14 days after surgery, pre-administration of drugs, 15,30 and 60 minutes after drug administration: Vehicle - saline; benzodiazepine agonist - diazepam (2 mg / kg); glutamatergic antagonist - MK-801 (0.25mg / kg), opioid agonist - Morphine (5.0 mg / kg) and gabaergic agonist - phenobarbital (100 mg / kg). Data were analyzed by Equation Generalised Estimates and expressed as mean ± SEM. All procedures were approved by CEUA / HCPA and CEUA / UFRGS under number: 14-0604 and 29310, respectively. Initially tests were carried out to verify the pain model, it was observed that 14 days after infraorbital nerve constriction surgery, animals pain group showed a reduction in the face withdrawal thresholds to von Frey facial test compared to control and sham groups [ GEE: group x time interaction (Wald 2 = 15.81; 2, P <0.05)]. After the model category, nociceptive tests were performed to assess the pathways involved in the trigeminal neuralgia, observed group x time interaction (Wald _2 = 175.74; 18 P <0.01). In protocol 1, the animals in the group who received pain benzodiazepine agonist (diazepam) showed an increase in nociceptive threshold from 15 minutes after administration and this result remained for up to 60 minutes. Animals of group pain that received glutamate antagonist (MK-801) showed an increase in the withdrawal threshold of the face only in the assessment was performed 60 minutes after drug administration. In protocol 2, statistical analysis showed interaction between the variables time x group (Wald χ2 = 657.53; 18, P <0.01), the animals showed increased nociceptive threshold from 15 minutes after administration of phenobarbital and morphine and this result remained for up to 60 minutes. On the other hand, animals receiving morphine showed an increased nociceptive threshold significantly higher in the animals receiving phenobarbital, however both drugs reversed hyperalgesia induced by exposure to pain model. In biochemical analysis, cortex and brainstem was observed increase in BDNF levels in both animals subjected to NT model and those who were exposed to sham surgery (one-way ANOVA / SNK, F (2,22) = 13.46 ;. F (2,25) = 6.08, P <0.05, respectively, at the peripheral level increase was observed in BDNF levels in trigeminal ganglion of animals subjected to the NT model (one-way ANOVA / SNK F ( 2,22) = 4.09; P <. 0.05). In serum was no difference in BDNF levels between groups (one-way ANOVA, P> 0.05) based on the results, this study. suggests that there is involvement of gabaergic pathways, glutamatergic and opioidergic processing orofacial neuropathic pain (trigeminal neuralgia) suggesting that there is functionality of the tested receptors. However, these GABAergic agonists did not induce analgesia in control animals and sham surgery suggesting a change in release or GABA synthesis in animals with NT. in this study, were not realized expression analysis and quantification of receptors, only evaluated the nociceptive response and the central and peripheral levels of BDNF. According to these findings, gabaergic pathways had a faster response than glutamatergic pathways. Some studies have shown that glutamate receptors are located in non-myelinated fibers in the periphery that can justify the delay in the animals that received glutamatergic antagonist in our study. As for BDNF levels we observed that there is an increase of this neurotrophin in animals subjected to NT model suggesting an involvement of this neuromodulator in neuroplastic events NT.

Dor facial

Neuralgia

Dor crônica

Nociceptividade

Agonistas GABAérgicos

Glutamato

Fisiopatologia

BDNF

Trigeminal neuralgia

Gabaergic pathways

Glutamatergic pathways

Opioidergic pathways

Investigação da fisiopatogenia de modelos de dor neuropática trigeminal em ratos

Oliveira, Fabricio Finamor de

January 2016

Neuralgia trigeminal (NT) é um tipo de dor neuropática orofacial intensa e debilitante sentida ao longo do nervo trigêmeo. Seu diagnóstico é meramente clínico, sem exames específicos, o que dificulta a presteza e eficácia do tratamento. O sintoma mais característico é alodínia mecânica relacionada à sensibilização central. Seu tratamento é farmacológico e/ou cirúrgico, no entanto pode trazer poucos benefícios e/ou importantes efeitos colaterais sem a garantia de remissão total dos sintomas. No tratamento farmacológico, os anticonvulsivantes são fármacos de primeira linha de tratamento, mas também são obtidas respostas de melhora com o uso de fármacos ansiolíticos e opioides. A dificuldade no tratamento da NT se deve, em parte, à falta de compreensão dos mecanismos envolvidos na geração da dor; sendo, desta forma, imprescindível a busca de um melhor entendimento da fisiopatologia da NT buscando identificar as vias envolvidas no processo de dor. Sendo assim, o objetivo deste estudo foi avaliar o possível envolvimento das vias gabaérgica, glutamatérgica e opioidérgica na fisiopatogenia de um modelo de neuralgia trigeminal em ratos. A resposta nociceptiva dos animais foi avaliada por meio do teste de von Frey eletrônicoantes e após a administração de agonistas gabaérgicos e opioidérgico e de antagonista glutamatérgico. Além da a resposta nociceptiva, foram avaliados os níveis de fator neurotrófico derivado do cérebro (BDNF) em gânglio trigeminal, tronco encefálico e córtex pré-frontal. Todos os procedimentos experimentais foram realizados na Unidade de Experimentação Animal (UEA), Unidade de Análises Moleculares e de Proteínas (UAMP) do Hospital de Clínicas de Porto Alegre (HCPA). A indução da dor neuropática foi por constrição crônica do nervo infraorbitário (CCI-ION) proposto por Imamura em 1997 adaptado (Imamura Y., Kawamoto H., Nakanishi O. Charactherization of heat-hiperalgesia in experimental trigeminal neuropathy in rats. Exp Brain Res, 1997; 116: 97-103.). Para isso foram utilizados 112 ratos Wistar, machos divididos para o procedimento cirúrgico em 3 grupos: Controle Total, Dor e Sham. Quatorze dias após o procedimento cirúrgico, tempo necessário para o desenvolvimento da dor neuropática, realizamos dois protocolos e dividimos os grupos em: protocolo 1: controle veículo, cirurgia sham veículo, cirurgia sham agonista benzodiazepínico, cirurgia sham antagonista glutamatérgico, dor veículo, dor agonista benzodiazepínico, dor antagonista glutamatérgico; protocolo 2: controle veículo, cirurgia sham veículo, cirurgia sham agonista gabaérgico, cirurgia sham agonista opioidérgico, dor veículo, dor agonista gabaérgico, dor agonista opioidérgico. Os animais dos grupos sham sofreram apenas incisão cirúrgica, sem constrição do nervo. Durante o procedimento cirúrgico a indução anestésica foi feita com cetamina (50mg/kg) e xilazina (5mg/kg) e a manutenção, com isoflurano 2-3%. O controle da dor pós-operatória foi obtido com cloridrato de tramadol (10mg/kg) no intervalo de 12h por 48h. A resposta hiperalgésica mecânica (von Frey) foi avaliada antes da indução do modelo (medida basal), 7 e 14 dias após cirurgia, pré-administração dos fármacos, 15,30 e 60 minutos após administração dos fármacos: veículo - solução salina; agonista benzodiazepínico – diazepam (2 mg/kg); antagonista glutamatérgico - MK- 801 (0,25mg/Kg), agonista opioidérgico – morfina (5,0 mg/kg) e agonista gabaérgico – fenobarbital (100mg/kg). Os dados foram analisados por Equações Estimativas Generalizadas e expressos em média+EPM. Todos os procedimentos foram aprovados pelo CEUA/HCPA e CEUA/UFRGS sob número: 14-0604 e 29310, respectivamente. Inicialmente foram realizados testes para verificação do modelo de dor, foi observado que 14 dias após cirurgia de constrição do nervo infraorbitário, os animais do grupo dor apresentaram redução nos limiares de retirada da face no teste de von Frey facial comparado aos grupos controle e sham [GEE: interação grupo x tempo (Waldχ2=15,81; 2, P<0,05)]. Após o estabelecimento do modelo, foram realizados testes nociceptivos para avaliação das vias envolvidas na neuralgia trigeminal, observou-se interação grupo x tempo (Wald _2=175,74;18, P<0,01). No protocolo 1, os animais do grupo dor que receberam agonista benzodiazepínico (diazepam) apresentaram aumento no limiar nociceptivo a partir de 15 minutos após administração e este resultado permaneceu por até 60 minutos. Os animais do grupo dor que receberam antagonista glutamatérgico (MK-801) apresentaram aumento no limiar de retirada da face somente na avaliação realizada 60 minutos após a administração do fármaco. No protocolo 2, análise estatística mostrou interação entre as variáveis tempo x grupo (Wald χ2=657,53;18, P<0,01), os animais do grupo dor que receberam fenobarbital apresentaram aumento no limiar nociceptivo a partir de 15 minutos após administração e este resultado permaneceu por até 60 minutos. Por outro lado, os animais que receberam morfina apresentaram um aumento no limiar nociceptivo significativamente maior que os animais que receberam fenobarbital, no entanto ambos os fármacos reverteram a hiperalgesia induzida pela exposição ao modelo de dor. Na análise bioquímica, em córtex e tronco encefálico foi observado aumento nos níveis de BDNF tanto nos animais submetidos ao modelo de NT quanto aos que foram expostos a cirurgia sham (ANOVA de uma via/SNK, F(2,22)=13,46; F(2,25)=6,08, P<0,05, respectivamente. Em nível periférico foi observado aumento nos níveis de BDNF em gânglio trigeminal nos animais submetidos ao modelo de NT (ANOVA de uma via/SNK,F(2,22)=4,09; P<0,05). Em soro não foi observada diferença nos níveis de BDNF entre os grupos (ANOVA de uma via, P>0,05). Com base nos resultados encontrados, este estudo sugere que há o envolvimento das vias gabaérgica, glutamatérgica e opioidergica no processamento da dor neuropática orofacial (neuralgia trigeminal) sugerindo que há funcionalidade dos receptores testados. No entanto, estes agonistas gabaérgicos não induziram analgesia nos animais controles e cirurgia sham sugerindo uma alteração na liberação ou na síntese de GABA nos animais com NT. Neste estudo, não foram realizadas análises de expressão e quantificação de receptores, apenas avaliou-se a resposta nociceptiva e os níveis de BDNF centrais e periféricos. De acordo com estes achados a via gabaérgica teve uma resposta mais rápida que a via glutamatérgica. Alguns estudos demonstram que os receptores glutamatérgicos estão localizados em fibras não mielinizadas na periferia isto pode justificar o atraso na resposta dos animais que receberam antagonista glutamatérgico em nosso estudo. Quanto aos níveis de BDNF observamos que há um aumento desta neurotrofina nos animais submetidos ao modelo de NT sugerindo um envolvimento deste neuromodulador em eventos neuroplásticos da NT. / Trigeminal neuralgia (TN) is a type of intense and debilitating orofacial neuropathic pain felt along the trigeminal nerve. The diagnosis is purely clinical, without specific tests, which makes the promptness and effectiveness of treatment. The most characteristic symptom is mechanical allodynia related to central sensitization. Its treatment is pharmacological and / or surgical treatment, however can bring few benefits and / or significant side effects without the guarantee of complete remission of symptoms. In drug treatment, the anticonvulsant drug are first-line treatment, but also enhances responses are obtained with the use of anxiolytic drugs and opioids. The difficulty in treating NT is due in part to the lack of understanding of the mechanisms involved in the generation of pain; It is thus essential to search for a better understanding of the pathophysiology NT seeking to identify the pathways involved in pain process. Thus, the aim of this study was to evaluate the possible involvement of GABAergic pathways, glutamatergic and opioidergic in the pathogenesis of a model of trigeminal neuralgia in rats. The nociceptive response of the animals was assessed using the von Frey test eletrônicoantes and after administration of opioid agonists and GABAergic and glutamatergic antagonist. In the nociceptive response was evaluated derived neurotrophic factor levels in the brain (BDNF) in the trigeminal ganglia, brainstem, and prefrontal cortex. All experimental procedures were performed in the Animal Experimentation Unit (UEA), Unit of Analysis and Molecular Protein (UAMP) Porto Alegre Clinical Hospital (HCPA). The induction of neuropathic pain was by chronic constriction of the infraorbital nerve (CCI-ION) proposed by Imamura in 1997 adapted. For that they were used 112 male Wistar rats divided into the surgical procedure into 3 groups: Full Control, Pain and Sham. Fourteen days after surgery, time required for the development of neuropathic pain, performed two protocols and divided groups: Protocol 1: vehicle control, sham surgery vehicle, sham surgery benzodiazepine agonist, sham surgery glutamatergic antagonist, vehicle pain, agonist benzodiazepine pain and antagonist glutamatergic pain. Protocol 2: vehicle control, vehicle sham surgery, sham surgery gabaergic agonist, sham surgery opioid agonist, vehicle pain, gabaergic agonist pain, opioid agonist pain. The animals of the sham group underwent only surgical incision without nerve constriction. During surgery anesthesia was induced with ketamine (50 mg / kg) and xylazine (5 mg / kg) and maintained with isoflurane 2-3%. The control of postoperative pain has been obtained with tramadol hydrochloride (10mg / kg) at 12h intervals for 48 hours. The mechanical hyperalgesic response (von Frey) was assessed before induction model (baseline measurement), 7 and 14 days after surgery, pre-administration of drugs, 15,30 and 60 minutes after drug administration: Vehicle - saline; benzodiazepine agonist - diazepam (2 mg / kg); glutamatergic antagonist - MK-801 (0.25mg / kg), opioid agonist - Morphine (5.0 mg / kg) and gabaergic agonist - phenobarbital (100 mg / kg). Data were analyzed by Equation Generalised Estimates and expressed as mean ± SEM. All procedures were approved by CEUA / HCPA and CEUA / UFRGS under number: 14-0604 and 29310, respectively. Initially tests were carried out to verify the pain model, it was observed that 14 days after infraorbital nerve constriction surgery, animals pain group showed a reduction in the face withdrawal thresholds to von Frey facial test compared to control and sham groups [ GEE: group x time interaction (Wald 2 = 15.81; 2, P <0.05)]. After the model category, nociceptive tests were performed to assess the pathways involved in the trigeminal neuralgia, observed group x time interaction (Wald _2 = 175.74; 18 P <0.01). In protocol 1, the animals in the group who received pain benzodiazepine agonist (diazepam) showed an increase in nociceptive threshold from 15 minutes after administration and this result remained for up to 60 minutes. Animals of group pain that received glutamate antagonist (MK-801) showed an increase in the withdrawal threshold of the face only in the assessment was performed 60 minutes after drug administration. In protocol 2, statistical analysis showed interaction between the variables time x group (Wald χ2 = 657.53; 18, P <0.01), the animals showed increased nociceptive threshold from 15 minutes after administration of phenobarbital and morphine and this result remained for up to 60 minutes. On the other hand, animals receiving morphine showed an increased nociceptive threshold significantly higher in the animals receiving phenobarbital, however both drugs reversed hyperalgesia induced by exposure to pain model. In biochemical analysis, cortex and brainstem was observed increase in BDNF levels in both animals subjected to NT model and those who were exposed to sham surgery (one-way ANOVA / SNK, F (2,22) = 13.46 ;. F (2,25) = 6.08, P <0.05, respectively, at the peripheral level increase was observed in BDNF levels in trigeminal ganglion of animals subjected to the NT model (one-way ANOVA / SNK F ( 2,22) = 4.09; P <. 0.05). In serum was no difference in BDNF levels between groups (one-way ANOVA, P> 0.05) based on the results, this study. suggests that there is involvement of gabaergic pathways, glutamatergic and opioidergic processing orofacial neuropathic pain (trigeminal neuralgia) suggesting that there is functionality of the tested receptors. However, these GABAergic agonists did not induce analgesia in control animals and sham surgery suggesting a change in release or GABA synthesis in animals with NT. in this study, were not realized expression analysis and quantification of receptors, only evaluated the nociceptive response and the central and peripheral levels of BDNF. According to these findings, gabaergic pathways had a faster response than glutamatergic pathways. Some studies have shown that glutamate receptors are located in non-myelinated fibers in the periphery that can justify the delay in the animals that received glutamatergic antagonist in our study. As for BDNF levels we observed that there is an increase of this neurotrophin in animals subjected to NT model suggesting an involvement of this neuromodulator in neuroplastic events NT.

Dor facial

Neuralgia

Dor crônica

Nociceptividade

Agonistas GABAérgicos

Glutamato

Fisiopatologia

BDNF

Trigeminal neuralgia

Gabaergic pathways

Glutamatergic pathways

Opioidergic pathways

Avaliação funcional mandibular e sensitiva orofacial de doentes com neuralgia trigeminal tratados com compressão do gânglio trigeminal com balão / Sensitive and functional evaluation of the orofacial region of patients with trigeminal neuralgia treated with balloon compression.

Silvia Regina Dowgan Tesseroli de Siqueira

10 November 2006

Esse trabalho teve como objetivos avaliar as características odontologicas, verificar a ocorrência de complicações sensitivas orofaciais e determinar os aspectos funcionais mandibulares de 105 doentes com neuralgia idiopática do trigêmeo (NIT) submetidos \'a compressão radiculo-ganglionar com balão inflável. Foram realizadas 5 avaliações para cada doente: uma pré-cirúrgica e 4 pós-cirúrgicas (7, 30, 120 e 210 dias). Ocorreu comprometimento sensitivo mais intenso no território dos ramos maxilar e mandibular do nervo trigêmeo (p < 0,001) e poucas anormalidades no território do ramo oftálmico (p = 0,1815). As qualidades sensitivas calor, frio, tato, e dor foram afetadas. As queixas subjetivas de dormência foram mais frequentes do que as objetivadas durante o exame de sensibilidade facial (p < 0,001). foi elevada a ocorrência de disfunção oclusal (62,9%); 42,6% dos doentes apresentaram queixas espontâneas relacionadas à mastigação; houve intensificação da dor miofascial na musculatura mastigatória após a cirurgia (p < 0,001), que retornou aos valores iniciais após os 210 dias; a mobilidade mandibular também agravou-se (p < 0,001). Os autores concluiram que o procedimento é eficaz e seguro quando aplicado em doentes com NIT envolvendo o ramo oftálmico. Entretanto, recidiva é frequente e as complicações sensitivas e ou motoras orofaciais poderiam comprometer a qualidade de vida e dificultar a reabilitação funcional dos doentes. / The aim of this study was to determine dental characteristics, abnormalities in masticatory function and ocurrence of orofacial sensorial complications in 105 patients with trigeminal neuralgia treated with radiculo-ganglionar compression of the trigeminal ganglion with balloon. The patients were evaluated in the pre-operative period and in 4 post-operative evaluations (7, 30, 120 and 210 days). Sensory deficits were more severe in the area innervated by the maxillary and the mandibular trigeminal branches (p < 0.001); the ophthalmic branch presented abnormalities in few cases. The sensory qualities heat, cold, tactile and pain were affected. Subjective numbness was more frequent than sensory abnormalities findings at the post-operative sensitive evaluation (p < 0.001). Dental occlusion abnormalities were observed in 62.9% of the patients and 42.6% of patients\' complaints were spontaneous masticatory difficulties. During the post-operative period, myofascial pain of the masticatory muscles was statistically significant (p < 0.001), but normalized after 210 days in average. It also compromised the jaw mobility (p < 0.001). It was concluded that this procedure is safe for patients with idiopathic trigeminal neuralgia involving the ophthalmic branch; however, sensory and motor complications of the method can affect the quality of life and rehabilitation of the patient.

Dor facial

Medição da dor

Neuralgia do trigemeo/complicações

Neuralgia do trigemio/cirurgia

Neurocirurgia

Dental pain

Neurosurgery

Orofacial pain

Surgery complications

Trigeminal neuralgia

Změny v Srdeční Frekvenci Novorozenců v Reakci na Odoranty s Relativně Silnou a Slabou Trigeminální Komponentou / Heart Rate Response in Newborns to Relatively Strong and Mild Trigeminal Odorants

Boušová, Jiřina

January 2017

The widely accepted view nowadays is that experiencing odours as rather pleasant or unpleasant is, to a certain degree, shaped on a daily basis through individual experience within one's culture via evaluative conditioning or, rather marginally so, via mere exposure to that certain odour. In other words, humans are not born with any fixed set of olfactory likes or dislikes but rather, they acquire them throughout their lifetime. However, olfactory sensation is not a "pure" percept, as odorant stimuli generally elicit a qualitative percept of an odorant - generated mainly by the olfactory nerve - as well as some degree of chemesthesis - a tactile confound of the odour generated mainly by the trigeminal nerve. The olfactory and trigeminal system exhibit complex interactions at both the peripheral and central level of chemosensory processing, which is also reflected in perceptual characteristics of the final percept, including perceived pleasantness (hedonics). If the olfactory contribution alone does not easily predict neonatal odour hedonics, due to newborns' limited previous exposure to chemosensory inputs, one may hypothesize that together with the strength of the trigeminal contribution they may form a significant factor affecting neonatal appetitive/aversive responses to odours. In the present...

Mécanismes impliqués dans les phénomènes allodyniques des douleurs céphaliques : migraine et névralgie du trijumeau / Mechanisms Involved in Allodyne Phenomena of Headache : Migraine and Trigeminal Neuralgia

Guy-Renouil, Nathalie

30 October 2012

Migraine et névralgie du trijumeau sont deux douleurs céphaliques bien différentes, associées à des manifestations allodyniques. Reflétant une sensibilisation centrale, étudier l’allodynie permet de mieux comprendre les mécanismes impliqués dans ces douleurs.- Dans le cas de la migraine: La céphalée est susceptible d’induire par son intensité et sa répétition des modifications profondes du fonctionnement cérébral, conduisant à l’amplification à la fois temporelle (chronicité) et spatiale (allodynie et hyperalgésie extracéphalique) de l’information nociceptive. Les modifications sont durables puisque l’hyperalgésie extra-trigéminale est constante chez le migraineux notamment en période intercritique. Cet état «préallodynique» permanent pourrait être attribuable à une facilitation tonique descendante des informations nociceptives afférentes au niveau de la corne dorsale. L’allodynie qui se développe préférentiellement au cours des crises seraient davantage liée à une altération de l’inhibition descendante corrélée à la fréquence des crises. La mise en jeu des mécanismes inhibiteurs descendant semble être modulable. L’altération des CIDN chez les migraineux est améliorée lorsque des antalgiques/traitements de crise de migraine sont régulièrement consommés. Le sevrage en antalgiques améliore la fréquence des crises mais engendre une re-dégradation des CIDN. L’abus joue donc un rôle promoteur des crises soit via un effet périphérique au niveau des afférences primaires, soit au niveau cortical, mais en tout cas, pas via une altération de la modulation inhibitrice descendante issues des structures du tronc cérébral. - Dans le cas de la névralgie du trijumeau, l’allodynie a des caractéristiques différentes puisqu’elle est très localisée, paroxystique, mécanique et dynamique. Néanmoins la mise en évidence d’une allodynie à tous les modes diffuse au niveau céphalique fait évoque l’existence d’une sensibilisation centrale dans la névralgie du trijumeau. La corrélation qui existe entre abaissement des seuils et nombre de désafférentations d’origine dentaire,amène à envisager que les lésions répétées au niveau des fibres de type C, est à même d’induire des modifications plastiques au niveau de la corne dorsale du sous noyau caudal, permettant alors aux fibres myélinisées de gros calibres, d’accéder aux voies de la nociception, notamment les couches superficielles.Ce facteur serait prédisposant mais pas en lui même un facteur causal suffisant. Une compression nerveuse est plus souvent retrouvée du coté douloureux mais ne semble pas non plus à elle un facteur suffisant pour générer la douleur. La compression nerveuse pourrait contribuer à la pathologie soit via une aggravation de la déafférentation, notamment au niveau des fibres A, soit via un rôle générateur local de potentiels d’action au niveau de ces fibres de gros calibre, ce qui expliquerait qui plus est la disparition très rapide, parfois quasi immédiate de la douleur lorsque les patients subissent une micro-décompression vasculaire. / Migraine and trigeminal neuralgia are two separate cephalic pain characterized by allodynia. Allodynia is of intense interest because it is a way to explore mechanism of pain. Then our work helps to better understanding pathophysiology of these two pain cephalic diseases. -In migraine: During attacks, cutaneous allodynia can extend outside the head involving mosthly thermal modalities. In between attack migraine patients are also characterized by greater extracephalic temporal pain summation and hyperalgesia unrelative to headache frequency or medication intake. Extratrigeminal hyperalgesia and allodynia may be consequence of central sensitization of spinal dorsal horn neurol in relation to tonic descending facilitation of pain. Migraine patients have also impairment of DNIC but in opposite to pain facilitation, DNIC magnitude is changed by several conditions. Loss of DNIC may be driven by repetition of headache and could lead to allodynia extension during attacks. Medication overuse also improves migraine-induced DNIC impairment. Since improvement of DNIC is not able to offset central sensitization, pain facilitation and descending inhibitory input involve two separate and independent ways. Moreover medication overuse may promote the increasing of headache frequency acting on others brain structures than descending pain inhibition. - In trigeminal neuralgia: our current findings promote the possibility that small fibers lesions due to dental deafferentation are predisposing factors for classical trigeminal neuralgia. Patients with CTN have bilateral trigeminal pain hypersensitivity over the trigeminal region, suggesting a central sensitization process. The relationship between pain thresholds and number of dental deafferentations suggest a role of the peripheral input as a driving factor for inducing sensitization. This may have clinical implications in term of the spreading symptomatology, and may promote the development of pain symptoms. In contrast, as for the NVC, the dental deafferentation is only one of several (unknown) conditions that are necessary but not sufficient for trigeminal neuralgia. Even compression could be an aggravating factor of axonal damages; neurovascular contact could be a triggerpromoting excitability of healthy large myelinated fibers.

Migraine

Névralgie du trijumeau

Allodynie

Hyperalgésie

Sensibilisation centrale

Plasticité

CIDN

Déafférentations dentaires

Migraine

Classical Trigeminal neuralgia

Allodynia

Hyperalgesia

Central sensitization

Plasticity

DNIC

Dental deafferentation

616

Postoperative oral surgical pain : Incidence, clinical characteristics and risk factors Jury / Douleurs orales post-chirurgicales : incidence, caractéristiques cliniques et facteurs de risque.

Chatila, Nadwa

01 October 2015

Les objectifs de cette thèse étaient de1/ carctériser la douleur post-opératoire chez des patients ayant reçu un implant dentaire mandibulaire. 2/examiner la relation entre facteurs individuels, facteurs chirurgicaux et douleurs post-operatoire chez patients ayant reçuun implant dentaire mandibulaire. 3/déterminer les incidences de la douleur neuropathique chez des patients ayant reçu un implant dentaire mandibulaire.Cette thèse a montré que la douleur post-opératoire aigüe après un implant dentaire allait d'une intensité douce à modérée((inférieur à 3 sur l'échelle visuelle analogique) et de courte durée. Une anlyse univariée a montré que l' intensité de la douleur post-operatoire était en lien avec l'âge, le souvenir de la douleur ayant fait suite à une précédente chirurgie orale, le nombre d'implants et la distance entre la fraise et le canal neurologique alvéolaire inférieur(IAN). En revanche aucun lien n'a été démontré avec le sexe, des facteurs psychologiques ou le procédé chirurgical. Une analyse multivariée a montré une association significative entre une douleur post-opératoie aigüe et la distance entre l'implant et le canal neurologique alvéolaire inférieur mémoire de la douleur après une précédente chirurgie orale. / This prospective study investigates the clinical characteristics and time course of postoperative pain after placement of dental implants in the mandible over a 6-month period. We also examined the influence of preoperative physical and psychological factors, as well as surgical factors, on acute postoperative pain. Postal questionnaires built to assess the existence neuropathic features of pain at the site of surgery (with the Douleur Neuropathique 4 Questions [DN4]) were sent two weeks, and one, three and six months after surgery.Acute postoperative pain was of mild-to-moderate intensity and had a short duration. Univariate analyses showed that the intensity of postoperative pain was related to age, remembrance of pain after a previous oral surgery, the number of implants, and the distance between the drill and the inferior alveolar nerve (IAN) canal. But, there was no relationship with gender, psychological factors, or surgical procedure (buccal flap). Besides the number of implants (P=0.013), and the distance between the end of the drill and the IAN canal (P=0.004), multivariate analyses showed a significant interaction between the acute postoperative pain and: i) the distance between the implant and the IAN canal (P=0.0005), ii) remembrance of pain after a previous oral surgery (P=0.003), iii) previous oral surgical pain (P=0.005). Among the patients who completed follow-up, only 0.7% (n = 1) scored positive on neuropathic symptoms (DN4 ≥ 3).This prospective observational study provides the characteristics of acute postoperative pain after placement of dental implants in the mandible and the risk factors for developing severe oral postoperative pain. It also provides the incidence rate of neuropathic pain occurring within the 6 months after dental implant surgery.

Douleur post-opératoire

Douleur neuropathique

Douleur trigminale

Chirurgie d'implantation dentaire

Placement dentaire mandibulaire

Postorerarive pain

Neuropathic pain

Trigeminal pain

Dental implant surgery

Mandibular dental placement

570

Connectivité fonctionnelle entre le noyau sensoriel principal du trijumeau et le noyau moteur du trijumeau

Slaoui Hasnaoui, Mohammed

04 1900

Les mouvements masticatoires sont générés par un réseau neuronal localisé dans le tronc cérébral connu sous le nom de générateur de patron central (GPC). De plus en plus d’évidences dans la littérature associent le noyau sensoriel principal du trijumeau (NVsnpr) au cœur rythmogène du GPC masticatoire, bien qu’il soit traditionnellement considéré comme un relais sensoriel au thalamus. La présente étude amène une nouvelle preuve de connectivité fonctionnelle entre le NVsnpr et le noyau moteur du trijumeau (NVmt) contenant les motoneurones (MNs) innervant les différents muscles masticatoires. Nos résultats indiquent que les neurones projetant vers NVmt sont situés dans le ¾ dorsal du NVsnpr. La stimulation électrique dans le NVsnpr dorsal évoque des réponses synaptiques excitatrices multiphasiques dans les MNs trigéminaux tandis que l'application locale de BAPTA, connue pour induire une activité rythmique dans les neurones du NVsnpr, évoqua aussi une activité rythmique dans les MNs, supportant davantage la relation fonctionnelle entre ces deux noyaux en termes de transmission de rythme. En imagerie calcique, la stimulation électrique de NVsnpr évoquait des réponses calciques dans les MNs situées principalement dans la région dorsolatérale contenant les MNs des muscles de fermeture et révéla un patron spécifique de connectivité entre les deux noyaux. L'organisation des projections semblait dépendre de manière critique de la localisation dorso-ventrale du site de stimulation au sein du NVsnpr. La principale tendance observée concernait la région DL de NVmt recevant des inputs du NVsnpr dorsal (R1 et R2), alors que la région ventromédiane de NVmt recevait plutôt des inputs de R2 et R3, qui représentent la majeure partie de la région intermédiaire du NVsnpr. Cette étude confirme et développe les expériences antérieures en explorant la nature physiologique et la topographie fonctionnelle de la connectivité entre NVsnpr et NVmt. / Masticatory movements are generated by a brainstem neuronal network known as the central pattern generator (CPG). Increasing evidence associate the trigeminal main sensory nucleus (NVsnpr) to the rhythmogenic heart of the masticatory CPG, despite the fact that it is conventionally seen as a sensory relay to the thalamus. The present study provides new evidence of a functional connectivity between NVsnpr and the trigeminal motor nucleus (NVmt), known to contain all the motoneurons (MNs) innervating jaw muscles. Our results indicate that neurons projecting to NVmt are located in the dorsal ¾ region of NVsnpr. Electrical stimulation of the dorsal NVsnpr induced multiphasic excitatory synaptic responses in trigeminal MNs while BAPTA application, which causes NVsnpr neurons to fire rhythmically, also induced rhythmic firing in some MNs, further emphasizing the functional relationship between these two nuclei in terms of rhythm transmission. In our calcium imaging experiments, electrical stimulation of NVsnpr evoked calcium responses in MNs located mainly in the jaw-closing region of NVmt and revealed a specific pattern of connectivity between the two nuclei. The organization of the projections seemed to depend critically on the dorsoventral location of the stimulation site within NVsnpr. The dorsolateral region of NVmt received mainly inputs from the dorsal NVsnpr (R1 and R2), whereas the ventromedial region of NVmt was found to receive inputs from R2 and R3 which account for the major part of the intermediate division of the NVsnpr. This study confirms and develops earlier experiments by exploring the physiological nature and functional topography of the connectivity between NVsnpr and NVmt that was demonstrated in the past with neuroanatomical techniques.

Mastication

trigéminal

NVsnpr

NVmt

motoneurones

muscles masticatoires

décharge rythmique

connectivité

trigeminal

motoneurons

jaw muscles

burst firing

connectivity

Trigeminal Sensitivity in Patients With Allergic Rhinitis and Chronic Rhinosinusitis

Burghardt, Georg Karl Ludwig, Cuevas, Mandy, Sekine, Rumi, Hummel, Thomas

22 February 2024

Objective: Allergic rhinitis (AR) and chronic rhinosinusitis with nasal polyps (CRSwNP) are of high importance in otorhinolaryngology. Some of their symptoms are related to changes in the nasal trigeminal sensitivity. The aim of this study was to compare nasal trigeminal sensitivity in patients with AR, CRSwNP, and healthy controls (HC). - Methods: A total of 75 individuals participated (age 19–78 years; 34 AR, 10 CRSwNP and 31 HC). Olfactory function was determined using the extended Sniffin’ Sticks test battery. Trigeminal sensitivity was assessed with CO₂ detection thresholds.Trigeminal negative mucosal potentials (NMP) and EEG-derived event-related potentials (ERP) were recorded in response to selective olfactory (phenylethyl alcohol) and trigeminal (CO₂) stimuli using high-precision air-dilution olfactometry. - Results: In comparison to HC, AR patients had lower CO₂ thresholds, also reflected in shorter peak latencies in NMP and trigeminal ERP measurements. CRSwNP patients had a decreased sensitivity for trigeminal stimuli, also reflected in prolonged trigeminal ERP latencies, and reduced olfactory function compared to HC. - Conclusion: AR patients seemed to be more sensitive to trigeminal stimuli than CRSwNP patients. Importantly, the differences could be shown on psychophysical and electrophysiological levels. The changes in trigeminal sensitivity appear to be present already at the level of the respiratory epithelium. The differences between the two groups may depend on the specific inflammatory changes accompanying each disorder, the degree of inflammatory activity, or duration of the inflammatory disorder. However, because the sample sizes are relatively small, these results need to be confirmed in the future studies with larger groups.

info:eu-repo/classification/ddc/610

ddc:610

Enregistrement de l’activité des interneurones prémoteurs de la région péritrigéminale en réponse à l’activité rythmique des neurones du noyau sensoriel principal du trijumeau

Sanvi, Ohini Yanis

05 1900

La mastication est une fonction essentielle relevant de la coordination d’un ensemble d’acteurs que sont la mâchoire, la langue et les muscles faciaux. La synchronisation de l’activité des différentes parties relève d’un réseau spécialisé de neurones nommé générateur de patron central (GPC) dont il a été proposé que le coeur rythmogène soit formé des neurones de la partie dorsale du noyau sensoriel principal du trijumeau (NVsnpr). Ces neurones ont la capacité intrinsèque de pouvoir alterner leur patron de décharge entre un mode tonique et rythmique en fonction la concentration extracellulaire de calcium ([Ca2+]e). Autrefois relégués à un rôle passif dans le système nerveux central, les évidences se sont accumulées en faveur d’un rôle actif des astrocytes dans les fonctions physiologiques. À cet effet, dans le NVsnpr, la stimulation des afférences sensorielles trigéminales active les astrocytes qui participent à la genèse du rythme masticateur en libérant la S100β, une protéine chélatrice du Ca2+ extracellulaire. Récemment, il a été démontré que l’activation rythmique des neurones du NVsnpr dorsal menait à une activation rythmique des motoneurones (MNs) innervant les muscles masticateurs. Ceci impliquerait qu’une seule population de neurone au sein du NVsnpr dorsal active de manière concomitante des MNs innervant les muscles antagonistes de la mâchoire. On suppose alors l’activation de la région péritrigéminale (PeriV), un réseau d’interneurones prémoteurs (INs) ceinturant les MNs du trijumeau et adjacente au NVsnpr. Son activation modulerait l’activité des MNs de muscles antagonistes. Les présents travaux réalisés en imagerie calcique indiquent que l’activation du NVsnpr par une baisse de la [Ca2+]e, simulant l’action de la S100β ou la stimulation électrique des afférences sensorielles trigéminales activent les neurones et astrocytes de la partie dorsale du NVsnpr et subséquemment les INs de la PeriV. Les patrons d’activité calcique des INs de la PeriV étaient similaires à ceux observés au sein du NVsnpr. Ces observations supportent par la même occasion la transmission des patrons en provenance du NVsnpr, le générateur du rythme masticateur vers la région prémotrice PeriV. Par ailleurs, les astrocytes péritrigéminaux dont le rôle n’avait jamais été investigué ont également répondu aux activations du NVsnpr dans des patrons d’activité calcique similaires aux astrocytes du NVsnpr dorsal. Ensemble, ces résultats suggèrent l’implication de la région PeriV dans la transmission et la modulation du rythme dans le GPC masticateur. / Mastication is an essential function that involves coordination of the jaw, tongue and facial muscles. Synchronization of the activity of these different parts is assured by a specialized network of neurons known as central pattern generator (CPG), whose rhythmogenic core has been proposed to be formed by neurons in the dorsal part of the trigeminal principal sensory nucleus (NVsnpr). These neurons have the intrinsic ability to alternate their firing pattern between a tonic and rhythmic mode, depending on the extracellular calcium concentration ([Ca2+]e). Once relegated to a passive role in the central nervous system, evidence is accumulating in favor of an active role for astrocytes in physiological functions. In NVsnpr, trigeminal sensory afferents stimulation activates astrocytes, which participate in the genesis of the masticatory rhythm by releasing S100β a calcium-binding protein that lowers [Ca2+]e. Recently, it has been demonstrated that rhythmic activation of dorsal NVsnpr neurons leads to rhythmic activation of motoneurons (MNs) innervating masticatory muscles. This would imply that a single neuron population within the dorsal NVsnpr concomitantly activates MNs innervating antagonistic jaw muscles. We presume that activation of the peritrigeminal region (PeriV), a network of premotor interneurons (INs) surrounding the trigeminal MNs and adjacent to the NVsnpr could modulate the activity of antagonistic muscle MNs. The present calcium imaging work indicates that activation of the NVsnpr by a decrease in [Ca2+]e, simulating the action of S100β, or electrical stimulation of trigeminal sensory afferents activates neurons and astrocytes in the dorsal part of NVsnpr and subsequently the INs of the PeriV. Calcium activity patterns in PeriV INs were similar to those observed in NVsnpr, supporting the transmission of patterns from NVsnpr, the generator of masticatory rhythm, to the PeriV premotor region. In addition, previously uninvestigated peritrigeminal astrocytes also responded to NVsnpr activations with calcium activity patterns similar to those of dorsal NVsnpr astrocytes. Taken together, these results suggest the involvement of the PeriV region in rhythm transmission and modulation in the masticatory CPG.

Mastication

NVsnpr

Générateur de patron central

PeriV

Astrocytes

Motoneurones

Afférences trigéminales

IntV

PCRt

SupV

JuxtV

Central pattern generator

Motoneurons

Trigeminal afferences

Optimization of Vagus Nerve Stimulation (VNS) and the Use of Cervical VNS as a Treatment for Heart Failure with Reduced Ejection Fraction

Owens, Misty

01 May 2024

Vagus nerve stimulation (VNS) is a promising neuromodulatory therapy under investigation for a range of disorders, including heart failure, gastric dysmotility, and migraine. Two primary forms of VNS are currently investigated: cervical VNS (cVNS), involving surgically implantation to activate vagal afferents in the cervical branch in the neck and transcutaneous auricular VNS (taVNS) which subcutaneously stimulates the auricular branch in the outer ear. The nucleus of the solitary tract (NTS) serves as a relay-station receiving 90% of vagal afferents, enabling connections with higher-order brain regions and other brainstem nuclei like the spinal trigeminal nucleus (Sp5) and locus coeruleus (LC), facilitating neuromodulation through VNS. Research has established the efficacy of VNS at 20–30 Hz for disorders like depression, but the impact of alternative stimulation parameters on medullary nuclei neuromodulation remains unclear. These studies used anesthetized rats to extracellularly record neuronal activity across varying VNS parameters within NTS, Sp5, and LC. Neuronal responses were classified as positive (increased activity), negative (decreased activity), or non-responders (no response). In LC, cVNS at standard paradigms (≥ 10 Hz) and bursting paradigms with shorter interburst intervals or increased pulses induced more positive responders, while standard 5 Hz generated more negative responders. Additionally, a build-up effect was observed in LC, with increased responders over consecutive VNS cycles. In NTS and Sp5, taVNS evoked comparable activation, with more positive responders at 20 Hz and 100 Hz and stronger responses at higher intensities. However, Sp5 responses were twice as strong compared to NTS. Furthermore, comparative analysis between taVNS and cVNS revealed similar overall activation in NTS, but distinct activation profiles in individual neurons indicate different pathways. Finally, the therapeutic efficacy of VNS therapy was evaluated in heart failure using a pressure-overload rat model. A 60-day cVNS treatment restored adverse cardiac remodeling and dysfunction, mitigated cardiac molecular changes, and prevented neuroinflammatory responses within brainstem nuclei. The findings presented herein demonstrated differential parameter-specific and nuclei-specific responses to taVNS and cVNS, investigated the mechanisms responsible for taVNS modulation, and confirmed that VNS therapy, when initiated early, can mitigate heart failure development and restore multiorgan homeostasis in a PO model.

cervical vagus nerve stimulation

nucleus of the solitary tract

spinal trigeminal nucleus

heart failure

locus coeruleus

Cardiovascular Diseases

Cardiovascular System

Nervous System

Neurosciences