Long-lasting antinociceptive effects of green light in acute and chronic pain in rats

Ibrahim, Mohab M., Patwardhan, Amol, Gilbraith, Kerry B., Moutal, Aubin, Yang, Xiaofang, Chew, Lindsey A., Largent-Milnes, Tally, Malan, T. Philip, Vanderah, Todd W., Porreca, Frank, Khanna, Rajesh

02 1900

Treatments for chronic pain are inadequate, and new options are needed. Nonpharmaceutical approaches are especially attractive with many potential advantages including safety. Light therapy has been suggested to be beneficial in certain medical conditions such as depression, but this approach remains to be explored for modulation of pain. We investigated the effects of light-emitting diodes (LEDs), in the visible spectrum, on acute sensory thresholds in naive rats as well as in experimental neuropathic pain. Rats receiving green LED light (wavelength 525 nm, 8 h/d) showed significantly increased paw withdrawal latency to a noxious thermal stimulus; this antinociceptive effect persisted for 4 days after termination of last exposure without development of tolerance. No apparent side effects were noted and motor performance was not impaired. Despite LED exposure, opaque contact lenses prevented antinociception. Rats fitted with green contact lenses exposed to room light exhibited antinociception arguing for a role of the visual system. Antinociception was not due to stress/anxiety but likely due to increased enkephalins expression in the spinal cord. Naloxone reversed the antinociception, suggesting involvement of central opioid circuits. Rostral ventromedial medulla inactivation prevented expression of light-induced antinociception suggesting engagement of descending inhibition. Green LED exposure also reversed thermal and mechanical hyperalgesia in rats with spinal nerve ligation. Pharmacological and proteomic profiling of dorsal root ganglion neurons from green LED-exposed rats identified changes in calcium channel activity, including a decrease in the N-type (CaV2.2) channel, a primary analgesic target. Thus, green LED therapy may represent a novel, nonpharmacological approach for managing pain.

Green-light phototherapy

Constellation pharmacology

Calcium imaging

Proteomics

Neuropathic pain

Thermal antinociception

Mechanical allodynia

The pre-emptive analgesic effect of cyclooxygenase-2 inhibitor SC-236 in rat model of acute postoperative pain

Ku, Pei-Yu

04 August 2011

In clinical situations, most of the patients suffer from inflammation and acute postoperative pain after surgery. Postoperative pain has been emphasized as a very crucial issue in improving the quality of medical care in each medical center. Therefore, management of the postoperative pain is an effective approach to reduce the painful unpleasant feeling, complications, and death rate after surgery. Surgical trauma results in the induction of COX-2, leading to the release of prostaglandins, which sensitize peripheral nociceptors and increase the excitability of spinal neurons, producing pain hypersensitivity in the surrounding uninjured tissue.The purpose of this study is to test the preventive effect of COX-2 inhibitor SC-236 for post-operative pain by rat plantar incision model.Then, we explored whether SC-236 is more effective in reducing the hyperalgesia and inflammation response administered before incision than after incision. Furthermore, we used male Sprague-Dawley rats received plantar incision were used in this study, the rats received subcutaneous injection of SC-236 before or after plantar incision. Behavior teste of mechanical allodynia¡Bthermal hyperalgesia and COX-2 expression level was determined at 4 h and 1, 2, and 3 days after surgery. Mechanical allodynia was measured by mechanical withdrawal threshold that was determined by stimulating with von Frey filaments stimulation. Thermal hyperalgesia was measured by thermal withdrawal thermal tested by radioactive thermal assay. Mechanical allodynia¡Bthermal hyperalgesia and COX-2 expression level were measured at various time points by behavior teste¡Breal-time polymerase chain reaction¡Bwestern blot and immunohistochemistry. The data from pre-incisional injection of SC-236 was compared with that from post-incisional injection of SC-236.The results revealed pre-incisional injection of COX-2 inhibitor significantly inhibited thermal hyperalgesia but not mechanical allodynia then post-incisional injection of COX-2 inhibitor group. Skin of pre-incisional injection of SC-236 show significant decreased mRNA expression of COX-2 at 1 day and 2 day after incision evidenced by real-time polymerase chain reaction. Western blot and immunohistochemistry also show significant decreased protein expression of COX-2 at 4 hours and 1 day after incision. Therefore, pre-incisional administration of SC-236 could prevent the surgical wound induced thermal hyperalgesia and decrease mRNA and protein expression level of cutaneous COX-2 at 4 hours and one day after surgical incision compared to post-incisional administration of SC-236 .

thermal hyperalgesia

mechanical allodynia

plantar incision

inflammation

acute postoperative pain

cyclooxygenase-2

Caracterização das gelatinases no gânglio trigeminal durante o desenvolvimento de inflamação crônica temporomandibular em ratos / Characterization of gelatinases in the trigeminal ganglion during development of chronic temporomandibular inflammation in rats

Nascimento, Glauce Crivelaro do

03 May 2011

A dor é um importante sintoma que sinaliza danos teciduais ou agentes potencialmente prejudiciais ao organismo, evocando respostas sensoriais e motoras de proteção. A dor orofacial apresenta alta prevalência na sociedade atual, sendo esta condição associada a tecidos duros e moles da cabeça, face, pescoço e a estruturas intraorais. Considerando as dores orofaciais de origem músculo-esquelética, destacam-se àquelas causadas pela Disfunção Temporomandibular (DTM). A DTM apresenta etiologia multifatorial, caracterizada por quadros crônicos envolvendo a região cervical, a musculatura mastigatória e a articulação temporomandibular (ATM). Desde que a inflamação das ATMs é considerada a principal causa da dor em pacientes portadores de DTM, a busca por novas opções terapêuticas para esta disfunção envolve estudos desta articulação, abrangendo aspectos fisiológicos, morfológicos e moleculares. Considerando o processo inflamatório e os aspectos moleculares envolvidos no desenvolvimento desta condição, é possível que as enzimas proteolíticas extracelulares, destacando-se as Metaloproteinases da Matriz (MMPs), as quais estão envolvidas na reabsorção de colágeno e de outras macromoléculas, tenham participação ativa neste processo. Em particular, estudos demonstraram que as MMPs estão envolvidas na modulação da dor neuropática, bem como estão presentes no líquido sinovial de portadores de inflamação da ATM. Sendo assim, o objetivo deste trabalho foi avaliar a influência da administração do Adjuvant de Freund (CFA) intraarticular, bilateralmente nas ATMs de ratos, na sensibilidade mecânica e nociceptiva, bem como avaliar a expressão das MMPs, em particular da MMP-2 e MMP-9, no gânglio trigeminal, nas diferentes fases de desenvolvimento da inflamação. Os resultados mostraram que a inflamação das ATMs promoveu alodinia mecânica e hiperalgesia orofacial. Em adição, a administração de doxiciclina (inibidor inespecífico das MMPs) reduziu as alterações na sensibilidade mecânica e nociceptiva. A quantificação das MMPs no gânglio trigeminal demonstrou que o início da inflamação promove aumento da MMP-9 (1 e 3 dias), enquanto que nas fases tardias do processo inflamatório acompanha-se o aumento da expressão da MMP-2 (3, 7 e 10 dias). / Pain is an important symptom that signals tissue damage or potentially harmful agents to the body and evokes sensory and motor protection. The orofacial pain is a type of symptoms that appears in high prevalence in modern society. This painful condition is associated with hard and soft tissues of the head, face, neck and intraoral structures. Considering the pain of musculoskeletal origin, we can highlight those caused by temporomandibular dysfunction (TMD). The TMD has a multifactorial etiology, characterized primarily by chronic conditions involving the neck, the chewing muscles and temporomandibular joint (TMJ). Inflammation of the TMJ is considered the main cause of pain in patients with TMD. Thus, the search for new therapeutic options for this disorder involves studies in the TMJ region encompassing physiological, morphological and molecular aspects. Considering the inflammatory process as the main cause of pain present in TMD, it is extremely important to understand the molecular aspects involved in developing this condition. In this context, extracellular proteolytic enzymes, highlighting the metaloproteniases matrix metalloproteinases (MMPs) play major role in the resorption of collagen and other macromolecules. The proteolytic activity of these MMPs is controlled by tissue inhibitors of metalloproteinases (TIMPs), which contribute to the maintenance of metabolic balance and structure of the extracellular matrix. Therefore, the objective of this study was to assess whether the type MMP gelatinases (MMP-2 and MMP-9) of the trigeminal ganglion participate in the development of mechanical allodynia and hyperalgesia in rats orofacial chronic inflammation bilateral TMJ. Our results demonstrated the presence of orofacial hyperalgesia, as well as mechanical allodynia in animals with temporomandibular inflammation induced by CFA and an increase in the expression and activity of gelatinases in the trigeminal ganglion of these animals. Still, there was a decrease in nociceptive orofacial hipersensitivity in animals that received a non-specific inhibitor for MMPs (doxycycline, 30mg/kg/day) for 10 days.

Alodinia Mecânica

Dor Orofacial

Hiperalgesia Orofacial

Inflamação Temporomandibular

Mechanical allodynia

Metalloproteinases

Metaloproteinases da Matriz

Orofacial hyperalgesia

Orofacial pain

Temporomandibular inflammation

Painful diabetic neuropathy: preclinical studies to improve therapeutic insight.

Kathleen Otto

Unknown Date

My PhD research studies, described in this thesis, were designed to document the temporal development of mechanical allodynia, a hallmark symptom of painful diabetic neuropathy (PDN), as well as opioid hyposensitivity using two different rat models of diabetes mellitus (DM). Specifically, the studies were conducted using the streptozotocin (STZ)-diabetic rat model of chemically-induced Type 1 diabetes in two different rat strains, as well as the Zucker Diabetic Fatty (ZDF) rat genetic model of Type 2 diabetes. Additionally, a longitudinal investigation of the effect of basal insulin replacement therapy to restore euglycaemia from 7-days post-STZ administration, on the development of mechanical allodynia in the hindpaws of the STZ-diabetic Wistar rat model of PDN, was conducted. The studies herein also included a longitudinal study to document the temporal development of mechanical allodynia and opioid hyposensitivity in the ZDF rat, which also examined the influence of dietary composition on the time course for the development of mechanical allodynia in the hindpaws, together with opioid hyposensitivity in these animals. In the final section of this thesis, the experiments were designed to examine possible mechanisms that may contribute to the development of opioid hyposensitivity in ZDF diabetic rats. These experiments involved the quantification of opioid receptor messenger ribonucleic acid (mRNA) gene expression as well as μ-opioid receptor (MOP-r) functional responses in tissues collected from 29-wk old diabetic ZDF rats relative to 7-wk old pre-diabetic control ZDF animals. In Chapter One, diabetes mellitus and more specifically its longterm complication, PDN, the focus of this doctoral research program, has been reviewed. Specifically, possible pathogenic mechanisms underlying mechanical allodynia, the relevant diabetic rodent models of PDN, use of insulin replacement therapy in diabetic rodents and its impact on hallmark symptoms of PDN, role of opioid pharmacology, the comparative efficacy of opioids in the treatment of PDN, and possible mechanisms that may underpin the development of opioid hyposensitivity in PDN, including the impact of altered excitatory neurotransmitters, have been reviewed. In Chapter Two, a preliminary study was conducted to investigate the efficacy of 4-wks treatment with Linplants (subcutaneous (s.c.) sustained-release bovine insulin implants) alone and in combination with ActRapid® (s.c. human insulin; 0.05 U to 3.5 U/100 g/day) with respect to glycaemic control in STZ-diabetic Wistar rats, and on acute diabetes characteristics for a 5-wk post-STZ administration period. Briefly, STZ-diabetic rats were divided into three groups: (1) rats which received no insulin treatment, (2) rats which were implanted with one s.c. Linplant at Day 7 post-STZ administration, and (3) rats which received one s.c. Linplant plus a once-daily injection of ActRapid® once diabetes was confirmed at 7-days post-STZ administration. The findings were that following implantation of a single Linplant at Day 7 post-STZ administration, euglycaemia was achieved in 50% of STZ-diabetic rats, with glycaemic control maintained for up to 4-wks post-implantation. Furthermore, once-daily injection of ActRapid™ to animals whose blood glucose levels (BGLs) were not well-controlled through use of Linplants alone, failed to achieve euglycaemia. It is possible that the ActRapid™ doses administered were not sufficient to achieve euglycaemia, and that increasing the doses may provide more effective glycaemic control. However, doubling the mean ActRapid™ dose from 1.63 (+ 0.3) U administered at Day 28 to 2.56 (+ 0.6) U administered at Day 34 post-STZ administration effectively only reduced BGLs by 1.3 mM to 11.6 + 1.6 mM. This suggests that although administering additional large doses of ActRapid™ to STZ-diabetic rats may eventually achieve euglycaemia, this method would presumably not be a more efficient method in achieving euglycaemia compared with the use of dosage-adjustable s.c. Linplants. Group (1) STZ-diabetic rats which were not treated with insulin developed diabetic signs including polydipsia, hyperphagia, decreased rate of body weight gain, and mechanical allodynia. Group (2) rats in which insulin treatment from 7-days post-STZ administration restored euglycaemia and reversed polydipsia and hyperphagia, were protected against the development of mechanical allodynia and reduced weight gain for the 5-wk study duration, while rats from Group (3) with incomplete glycaemic control developed levels of polydipsia, hyperphagia, reduced weight gain and mechanical allodynia intermediate between rats in Groups (1) and (2). These findings collectively suggest a direct correlation between the level of glycaemic control and the extent to which mechanical allodynia, a defining symptom of PDN, develops. In Chapter Three, the findings from the preliminary 5-wk study in Chapter Two were used to design a 24-wk longitudinal study of the temporal development of mechanical allodynia and opioid hyposensitivity in STZ-diabetic Wistar rats for comparison with the findings of a similar study previously undertaken by our laboratory using STZ-diabetic Dark Agouti rats (Nielsen et al, 2007). Additionally, this study examined the effects of tight glycaemic control achieved through the use of insulin implants as a means of potentially preventing the development of mechanical allodynia and opioid hyposensitivity for up to 24 weeks in STZ-diabetic Wistar rats. Briefly, STZ-diabetic rats were divided into 3 groups: (1) non-insulin treated STZ-diabetic Dark Agouti rats to provide comparison data with our laboratory’s previously published data in this rat strain (Nielsen et al, 2007), (2) non-insulin treated STZ-diabetic Wistar rats to examine possible between-species differences, and (3) STZ-diabetic Wistar rats which were treated with adjustable-dose s.c. Linplants from Day 7 post-STZ administration to maintain euglycaemia for the remainder of the 24-wk study period. In this 24-wk longitudinal study in STZ-diabetic rats, body weight, 24-hr water intake, paw withdrawal thresholds (PWTs) and BGLs were monitored at fortnightly intervals in all animals in order to document possible temporal changes in the development of diabetic signs and mechanical allodynia in the hindpaws respectively. STZ-diabetic rats underwent 6-wkly opioid antinociceptive testing, using single bolus doses of each of morphine and oxycodone with a 2-3 day washout period between individual opioids in order to assess the potential influence of both diabetes and glycaemic control on opioid potency in these animals. The findings demonstrate that non-insulin treated STZ-diabetic rats of both strains exhibited a decreased rate of body weight gain and polydipsia, as well as progressive development of mechanical allodynia in the hindpaws and loss of morphine potency. Importantly, STZ-diabetic Wistar rats which were treated with insulin to maintain euglycaemia from Day 7 post-STZ administration failed to develop these diabetic symptoms for the duration of the 24-wk study period, highlighting the importance of chronic hyperglycaemia in the development of mechanical allodynia and morphine hyposensitivity in the STZ-diabetic rodent model of PDN. The research described in Chapter Four involved a 22-wk longitudinal study of the development of diabetes and its longterm sensory nerve complications, viz mechanical allodynia and opioid hyposensitivity, in the ZDF rodent model of Type 2 diabetes commencing at 7-wks of age. This study also examined the influence of four different diets fed to separate groups of ZDF rats from 7-wks age, on the time course for the development of diabetes, mechanical allodynia in the hindpaws and opioid hyposensitivity in these animals. Briefly, ZDF rats were sub-divided into four dietary groups, each of which was fed one of the four following diets for 22-wks commencing at 7-wks of age, viz: (a) Purina 5008™, (b) a domestically-produced rat chow of similar composition to Purina 5008 (termed Purina Composition diet), (c) a Diabetogenic diet, or (d) Standard Rat Chow. All rats underwent once-fortnightly measurement of BGLs, body weight, 24-hr water intake, and measurement of PWTs in the hindpaws. Additionally, ZDF rats underwent opioid antinociceptive testing, similar to that previously described for STZ-diabetic rats (Chapter Three), to investigate the influence of diabetes and dietary composition on the antinociceptive potency of single bolus doses of morphine and oxycodone administered at 6-weekly intervals over a 22-wk study period. The afore-mentioned data were compared with the respective data obtained from the pre-diabetic control group of ZDF rats that were euthanised at 7-wks of age prior to the development of hyperglycaemia. The results demonstrate that the ZDF rat develops mechanical allodynia in the hindpaws and opioid hyposensitivity in a temporal fashion, in a manner similar to that previously documented for the STZ-diabetic Wistar rat model of Type 1 diabetes (Chapter Three). For the four diets assessed, there did not appear to be significant differences between dietary groups with respect to the time course and extent of development of hyperglycaemia, mechanical allodynia or opioid hyposensitivity in the ZDF rat model of PDN. The study described in Chapter Five investigated the effect of both diabetes and dietary composition on opioid receptor mRNA expression in tissue samples collected from the five groups of ZDF rats used in the behavioural studies described in Chapter Four and outlined above. Briefly, mRNA expression for each of the - (MOP), - (DOP), and - (KOP) receptors were quantified in mid-brain and spinal cord tissues prepared from 29-wk old diabetic ZDF rats maintained on one of four diets from 7-wks age, and compared with the respective expression levels in samples prepared from pre-diabetic ZDF rats euthanised at 7-wks of age. Overall, the findings suggest that diabetes does not alter opioid receptor mRNA expression in the mid-brain or spinal cord of diabetic ZDF rats at 29-wks of age relative to the corresponding levels of mRNA expression in the mid-brain and spinal cord of pre-diabetic ZDF rats at 7-wks of age. Hence, the marked reduction in the anti-allodynic potency of morphine and oxycodone observed in diabetic ZDF rats at 29-wks of age relative to that observed in pre-diabetic ZDF rats at 7-wks of age (Chapter Four) does not appear to be associated with a decrease in opioid receptor mRNA expression. In Chapter Six, the effect of both advanced diabetes and dietary composition on opioid-agonist stimulated [35S]GTPγS binding was examined in spinal cord tissue membranes from the ZDF rat. Specifically, [35S]GTPγS binding assays were used to assess the ability of a -opioid ligand (DAMGO) to stimulate -opioid receptor coupling to inhibitory G proteins in homogenates prepared from spinal cord samples of 29-wk old ZDF rats maintained on one of four different diets from 7-wks age (Chapter Four), relative to [35S]GTPγS binding in homogenates prepared from spinal cord samples of pre-diabetic 7-wk old ZDF rats. As specific MOP agonist-stimulated [35S]GTPγS binding was significantly decreased in spinal cord homogenates from diabetic ZDF rats at 29-wks of age relative to that for pre-diabetic ZDF rats (7-wks), this may contribute, at least in part, to the morphine hyposensitivity observed in diabetic ZDF rats at 29-wks of age relative to the pre-diabetic ZDF group. However, closer examination of these data revealed that specific MOP agonist-stimulated [35S]GTPγS binding above basal did not differ significantly between the pre-diabetic group and the longterm diabetic group of ZDF rats. Instead, there was significantly lower basal [35S]GTPγS binding in the spinal cord of ZDF rats at 29-wks c.f. 7-wks of age. Together, the findings suggest that impaired basal G-protein function rather than impaired coupling of MOP-r to its inhibitory G-protein may, at least in part, underpin -opioid agonist hyposensitivity in 29-wk ZDF rats. Finally, Chapter 7 contains a brief description of the main conclusions and discussion of the relevance of this doctoral research project, including potential future research directions.

Influência do comprimento de trabalho na dor pós-operatória após uma ou duas sessões de tratamento endodôntico: um ensaio clínico randomizado / Influence of working length on postoperative pain after single or two-visit endodontic treatment: a randomized clinical trial

Cardoso, Alessandra Manchini [UNESP]

16 January 2017

Submitted by ALESSANDRA MANCHINI CARDOSO null (lemanchini@hotmail.com) on 2017-01-30T15:58:06Z No. of bitstreams: 1 ficha+dissertação.pdf: 3142311 bytes, checksum: fd89634d15b20bb2b50e11cbbb2d7552 (MD5) / Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-02-03T13:34:35Z (GMT) No. of bitstreams: 1 cardoso_am_me_sjc.pdf: 3142311 bytes, checksum: fd89634d15b20bb2b50e11cbbb2d7552 (MD5) / Made available in DSpace on 2017-02-03T13:34:35Z (GMT). No. of bitstreams: 1 cardoso_am_me_sjc.pdf: 3142311 bytes, checksum: fd89634d15b20bb2b50e11cbbb2d7552 (MD5) Previous issue date: 2017-01-16 / O objetivo deste ensaio clínico foi avaliar a influência de dois comprimentos de trabalho foraminal diferentes na dor pós-operatória e alodinia mecânica após o tratamento endodôntico concluído em sessão única ou em duas sessões. Quarenta e oito pacientes adultos, indicados para tratamento endodôntico primário de dente com periodontite apical assintomática, foram randomizados em 4 grupos (n = 12): SV0 - tratamento em sessão única e instrumentação do canal radicular até o forame apical; SV+1 - tratamento em sessão única e instrumentação do canal radicular 1 mm além do forame apical; TV0 - tratamento em duas sessões e instrumentação do canal radicular até o forame apical; TV+1 - tratamento em duas sessões e instrumentação do canal radicular 1 mm além do forame apical. Todos os participantes receberam um questionário baseado em uma escala visual analógica para registrar sua avaliação da dor em 3 horas, 6 horas, 12 horas, 24 horas, 48 horas, 72 horas e 7 dias após o término do tratamento endodôntico. Para a avaliação mecânica da alodinia, a medição da força da mordida foi realizada utilizando um gnatodinanômetro digital imediatamente antes do tratamento e 7 dias após a sua conclusão. Não houve diferença estatisticamente significante entre os 4 grupos em relação a dor pós-operatória em todos os momentos avaliados (α = 5%, teste de Kruskal-Wallis). Os valores de força de mordida foram significativamente maiores 7 dias após o tratamento endodôntico, indicando que houve uma redução significativa da dor mecânica em todos os grupos, sem diferença significativa entre eles (α = 5%, ANOVA e teste de Tukey). Todos os grupos apresentaram a mesma taxa de dor pós-operatória nos momentos avaliados e efetivamente aumentaram os limiares mecânicos de dor. / The objective of this clinical trial was to evaluate the influence of two different foraminal working lengths on postoperative pain and mechanical allodynia after endodontic treatment completed in single-visit or two-visit. Forty-eight adult patients indicated for primary endodontic treatment of tooth with asymptomatic apical periodontitis were randomly assigned to 4 groups (n = 12): SV0 – single-visit root canal treatment and instrumentation up to the apical foramen; SV+1 – single-visit root canal treatment and instrumentation 1 mm beyond the apical foramen; TV0 – two-visit root canal treatment and instrumentation up to the apical foramen; TV+1 – two-visit root canal treatment and instrumentation 1 mm beyond the apical foramen. All participants received a questionnaire based on a visual analog scale to record their assessment of pain at 3 hours, 6 hours, 12 hours, 24 hours, 48 hours, 72 hours and 7 days after the endodontic treatment concluded. For mechanical allodynia evaluation, bite force measurement was performed using a digital gnatodynanometer just before treatment and 7 days after its conclusion. No statistically significant difference was found among the 4 groups in relation to postoperative pain at all time points assessed (α= 5%, Kruskal-Wallis test). Bite force values were significantly higher 7 days after endodontic treatment, indicating that there was a significant reduction of mechanical pain in all groups, with no significant difference among them (α= 5%, ANOVA and Tukey’s test). All groups exhibited the same rate of postoperative pain at the time points assessed and effectively increased the mechanical pain thresholds.

Alargamento foraminal

Alodínia mecânica

Ensaio clínico randomizado

Dor pós-operatória

Foraminal enlargement

Postoperative pain

Randomized clinical trial

Mechanical allodynia

Caracterização das gelatinases no gânglio trigeminal durante o desenvolvimento de inflamação crônica temporomandibular em ratos / Characterization of gelatinases in the trigeminal ganglion during development of chronic temporomandibular inflammation in rats

Glauce Crivelaro do Nascimento

03 May 2011

A dor é um importante sintoma que sinaliza danos teciduais ou agentes potencialmente prejudiciais ao organismo, evocando respostas sensoriais e motoras de proteção. A dor orofacial apresenta alta prevalência na sociedade atual, sendo esta condição associada a tecidos duros e moles da cabeça, face, pescoço e a estruturas intraorais. Considerando as dores orofaciais de origem músculo-esquelética, destacam-se àquelas causadas pela Disfunção Temporomandibular (DTM). A DTM apresenta etiologia multifatorial, caracterizada por quadros crônicos envolvendo a região cervical, a musculatura mastigatória e a articulação temporomandibular (ATM). Desde que a inflamação das ATMs é considerada a principal causa da dor em pacientes portadores de DTM, a busca por novas opções terapêuticas para esta disfunção envolve estudos desta articulação, abrangendo aspectos fisiológicos, morfológicos e moleculares. Considerando o processo inflamatório e os aspectos moleculares envolvidos no desenvolvimento desta condição, é possível que as enzimas proteolíticas extracelulares, destacando-se as Metaloproteinases da Matriz (MMPs), as quais estão envolvidas na reabsorção de colágeno e de outras macromoléculas, tenham participação ativa neste processo. Em particular, estudos demonstraram que as MMPs estão envolvidas na modulação da dor neuropática, bem como estão presentes no líquido sinovial de portadores de inflamação da ATM. Sendo assim, o objetivo deste trabalho foi avaliar a influência da administração do Adjuvant de Freund (CFA) intraarticular, bilateralmente nas ATMs de ratos, na sensibilidade mecânica e nociceptiva, bem como avaliar a expressão das MMPs, em particular da MMP-2 e MMP-9, no gânglio trigeminal, nas diferentes fases de desenvolvimento da inflamação. Os resultados mostraram que a inflamação das ATMs promoveu alodinia mecânica e hiperalgesia orofacial. Em adição, a administração de doxiciclina (inibidor inespecífico das MMPs) reduziu as alterações na sensibilidade mecânica e nociceptiva. A quantificação das MMPs no gânglio trigeminal demonstrou que o início da inflamação promove aumento da MMP-9 (1 e 3 dias), enquanto que nas fases tardias do processo inflamatório acompanha-se o aumento da expressão da MMP-2 (3, 7 e 10 dias). / Pain is an important symptom that signals tissue damage or potentially harmful agents to the body and evokes sensory and motor protection. The orofacial pain is a type of symptoms that appears in high prevalence in modern society. This painful condition is associated with hard and soft tissues of the head, face, neck and intraoral structures. Considering the pain of musculoskeletal origin, we can highlight those caused by temporomandibular dysfunction (TMD). The TMD has a multifactorial etiology, characterized primarily by chronic conditions involving the neck, the chewing muscles and temporomandibular joint (TMJ). Inflammation of the TMJ is considered the main cause of pain in patients with TMD. Thus, the search for new therapeutic options for this disorder involves studies in the TMJ region encompassing physiological, morphological and molecular aspects. Considering the inflammatory process as the main cause of pain present in TMD, it is extremely important to understand the molecular aspects involved in developing this condition. In this context, extracellular proteolytic enzymes, highlighting the metaloproteniases matrix metalloproteinases (MMPs) play major role in the resorption of collagen and other macromolecules. The proteolytic activity of these MMPs is controlled by tissue inhibitors of metalloproteinases (TIMPs), which contribute to the maintenance of metabolic balance and structure of the extracellular matrix. Therefore, the objective of this study was to assess whether the type MMP gelatinases (MMP-2 and MMP-9) of the trigeminal ganglion participate in the development of mechanical allodynia and hyperalgesia in rats orofacial chronic inflammation bilateral TMJ. Our results demonstrated the presence of orofacial hyperalgesia, as well as mechanical allodynia in animals with temporomandibular inflammation induced by CFA and an increase in the expression and activity of gelatinases in the trigeminal ganglion of these animals. Still, there was a decrease in nociceptive orofacial hipersensitivity in animals that received a non-specific inhibitor for MMPs (doxycycline, 30mg/kg/day) for 10 days.

Alodinia Mecânica

Dor Orofacial

Hiperalgesia Orofacial

Inflamação Temporomandibular

Metaloproteinases da Matriz

Mechanical allodynia

Metalloproteinases

Orofacial hyperalgesia

Orofacial pain

Temporomandibular inflammation

ENVOLVIMENTO DO RECEPTOR DE POTENCIAL TRANSITÓRIO A1 (TRPA1) EM UM MODELO DE DOR NEUROPÁTICA MANTIDA PELO SIMPÁTICO EM CAMUNDONGOS / INVOLVEMENT OF TRANSIENT RECEPTOR POTENTIAL A1(TRPA1) ON MODEL OF NEUROPATHIC PAIN SYMPATHETICALLY MAINTAINED IN MICE

Pinheiro, Francielle de Vargas

26 May 2012

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Some forms of neuropathic pain are maintained by sympathetic fibers, but the underlying mechanisms are poorly understood. Thus, the aim of this study was to investigate the possible involvement of the TRPA1 receptor as well as the role of the sympathetic nervous system (involved in sympathetically maintained neuropathic pain) in a model of neuropathic pain induced by chronic sciatic nerve constriction injury (CCI) in mice. The systemic injection of the selective TRPA1 antagonist HC-030031 reversed both mechanical and cold allodynia induced by chronic sciatic nerve constriction injury. Nerve injury also sensitizes mice to the nociception induced by the intraplantar injection of a low dose of the TRPA1 agonist allyl isothiocyanate without changing TRPA1 immunoreactivity in the injected paw. Furthermore, the chemical sympathectomy produced by guanethidine largely prevented CCI-induced mechanical and cold allodynia. CCI also induced a norepinephrine-trigged nociception that was inhibited by α-adrenoceptor antagonism and norepinephrine transporter and monoamine oxidase inhibition. Finally, the peripheral injection of HC-030031 also largely reduced CCI-induced nociception by norepinephrine and mechanical or cold allodynia. Taken together, the present findings reveal the critical role of TRPA1 in mechanical and cold hypersensitivity as well as in hypersensitivity to norepinephrine following nerve injury. This article presents the role of TRPA1 receptor on the sympathetically-maintained nociception induced by nerve injury in mice. Our results suggest that TRPA1 antagonists may be useful to treat neuropathic patients that present sympathetically maintained pain. / Algumas formas de dor neuropática são mantidos por fibras simpáticas, contudo os mecanismos subjacentes são pouco compreendidos. Assim, o objetivo deste estudo foi investigar o possível envolvimento do receptor TRPA1, bem como o papel do sistema nervoso simpático num modelo de dor neuropática induzido pela constrição crônica do nervo ciático (CCI) em camundongos. A administração sistêmica do antagonista seletivo do receptor TRPA1, HC-030031, reverteu a alodinia mecânica e ao frio induzida pela CCI. A injeção de uma baixa dose do agonista do receptor TRPA1, isotiocianato de alila, induziu uma resposta nociceptiva nos animais que sofreram a lesão no nervo, sem alterar a imunorreatividade do TRPA1 na pata injetada. Além disso, a simpatectomia química produzida pela guanetidina amplamente previniu a alodínia mecânica e ao frio induzida pela CCI. Ainda, a injeção intraplantar de norepinefrina induziu nocicepção espontânea, a qual foi reduzida pelo antagonista α-adrenérgico, inibidor do transportador de norepinefrina e inibidor da enzima monoamina oxidase. Finalmente, a administração periférica do HC-030031 reduziu a nocicepção espontânea induzida pela norepinefrina e também a alodínia mecânica e térmica de animais neuropáticos. Assim, nossos resultados revelam o papel crítico do receptor TRPA1 na alodínia mecânica e ao frio, bem como na hipersensibilidade à norepinefrina após lesão do nervo em um modelo de dor neuropática mantida pelo simpático. Dessa forma, o receptor TRPA1 poderá ser um alvo para o desenvolvimento de novos tratamentos para esse tipo de dor.

Contrição crônica do nervo ciático

Antagonista TRPA1

Norepinefrina

Adrenoreceptor

Alodínia frio

Alodínia mecânica

Chronic constriction injury

TRPA1 antagonist

Norepinephrine

Adrenoceptor

Cold allodynia

Mechanical allodynia

CNPQ::CIENCIAS BIOLOGICAS::FARMACOLOGIA

Úloha angiotenzinových receptorů v modelu neuropatické bolesti / The role of angiotensin receptors in neuropathic pain

Kalynovska, Nataliia

January 2012

Neuropathic pain is one of the most debilitating disorders. Currently available treatments for neuropathic pain are still unsatisfactory as they have only limited treatment effect and patients may suffer from unwanted side effects. Mechanism-based approaches to neuropathic pain treatment are considered to be more effective. Therefore multiple studies are dedicated to study the pathophysiological mechanisms of neuropathic pain. One of the possible underlying mechanism that causes neuropathic pain is neuroinflammation. Recent studies suggested that angiotensin II ( main effector molecule of the renin-angiotensin system) via its receptors in the central nervous system may be involved in the neuroinflammatory processes. The aim of this study was to investigate the role of angiotensin receptor type 1 in the developement and maintenance of neuropathic pain induced in animal model. Spinal nerve ligation (L5) was used as a model of peripheral neuropathy. Our results showed that treatment with AT1R blocker losartan markedly reduced thermal hyperalgesia and reduced increased sensitivity to mechanical stimuli in the SNL-operated rats.This indicates a possibly significant role of AT1 receptors in the development of neuropathic pain, probably due to reduction of neuroinflammation in the nervous system. These findings...

Caractérisation d'un modèle animal de douleur articulaire associée à l'arthrose du genou chez le rat Sprague-Dawley

Ferland-Legault, Catherine Estelle

06 1900

La douleur articulaire associée à l’arthrose est un problème clinique majeur, spécialement chez les personnes âgées. L’intensité de la douleur est souvent amplifiée lors de mouvement de l’articulation et principalement lors du soutien de la charge corporelle sur le membre lésé. Malheureusement, les traitements pharmacologiques proposés sont trop souvent associés à des effets secondaires néfastes et à une inefficacité pour le soulagement de la douleur à long terme. Divers modèles murins sont utilisés en laboratoire de recherche pour des études précliniques de molécules aux propriétés analgésiques. Une évaluation comparative de la réponse comportementale douloureuse des animaux d’un modèle d’instabilité articulaire induit par le sectionnement du ligament croisé antérieur accompagné d’une méniscectomie partielle (le modèle ACLT+pMMx) et d’un modèle de dégénérescence articulaire induite par le monoiodoacetate (le modèle MIA) a permis de sélectionner un modèle approprié pour la continuité du projet. Les deux modèles ont démontré des lésions tissulaires, mais le modèle MIA a démontré une réponse douloureuse plus prononcée que le modèle ACLT+pMMx. Par l’analyse de la démarche, le modèle MIA a démontré une boiterie claire dans le patron de la démarche des animaux qui est associée à une lésion unilatérale. Le modèle MIA a donc été choisi pour la suite du projet. La problématique principale dans la recherche sur la douleur associée à l’arthrose est une compréhension incomplète des mécanismes de douleur responsables de l’induction et du maintien de l’état de douleur. Il devient donc nécessaire d’améliorer nos connaissances de ces mécanismes en effectuant une caractérisation plus approfondie des modèles animaux employés pour l’évaluation de stratégies pharmacologiques analgésiantes. Afin de bien comprendre le modèle MIA, une caractérisation des événements moléculaires centraux lors de la progression du processus dégénératif des structures articulaires de ce modèle s’est effectuée aux jours 3, 7, 14, 21 et 28 post injection. Des mécanismes hétérogènes qui modulent l’information nociceptive en fonction de la progression temporelle de la pathologie ont été observés. Les changements du contenu i spinal des neuropeptides sélectionnés (substance P, CGRP, dynorphine A et Big dynorphine) ont débuté sept jours suivant l’injection de MIA. L’observation histologique a démontré que les dommages structuraux les plus importants surviennent entre les jours 14 et 21. C’est entre les jours 7 et 21 que les lésions démontrent le plus de similarités à la pathologie humaine. Cela suggère que lors d’une évaluation préclinique d’un traitement pharmacologique pour pallier la douleur articulaire utilisant le modèle MIA, l’étude doit tenir compte de ces événements afin de maximiser l’évaluation de son efficacité. Puisque les traitements pharmacologiques conventionnels proposés pour le soulagement de la douleur ne font pas l’unanimité en terme d’efficacité, d’effets non désirés et de coûts monétaires parfois onéreux, les molécules de dérivés de plante deviennent une alternative intéressante. L’eugénol, le principal constituant de l’huile de clou de girofle, a été administré oralement pour une période de 28 jours chez des rats ayant reçu l’injection intra-articulaire de MIA afin d’évaluer son efficacité pour le traitement de la douleur articulaire. L’eugénol à une dose de 40 mg/kg s’est révélé efficace pour l’amélioration du patron de la démarche des animaux ainsi que pour la diminution de l’allodynie mécanique secondaire. De plus, les concentrations spinales de neuropeptides pronocicepteurs ont diminué chez les animaux traités. Par une évaluation histopathologique, l’eugénol n’a démontré aucune évidence d’effets toxiques suite à une administration per os quotidienne pour une période prolongée. Ces résultats suggèrent le potentiel thérapeutique complémentaire de la molécule d’eugénol pour le traitement de la douleur articulaire. / Pain is the most predominant clinical symptom associated with osteoarthritis (OA), mostly among older people. Joint movement and weight bearing often increase the pain intensity. Unfortunately, the proposed pharmacological treatments are frequently associated with side effects and ineffective for pain alleviation for long time periods. Many murine models are used in laboratories for preclinical studies evaluating analgesic compounds. A comparative evaluation of the behavioral pain responses of animals with a joint instability model induced by the transection of the anterior cruciate ligament followed by a partial menisectomy (the ACLT+pMMx model) and of an articular degenerative model induced by an intra-articular injection of monoiodoacetate (the MIA model) was conducted to select an appropriate model for the continuation of the project. Both models demonstrated articular lésions, however the MIA model demonstrated a clearer behavioral pain response over the ACLT+pMMx model. The gait pattern of the MIA model revealed a clear limping gait similar to that observed with unilateral OA in humans. The MIA model was chosen for the subsequent studies. An unresolved issue in pain OA research is the lack of understanding of the pain mechanisms responsible for the induction and maintenance of the pain. Therefore, there is an urgent clinical need to improve the characterization of animal models to effectively discover novel pain relief pharmacological treatment stratégies for OA patients. A characterization of the spinal pain molecular events during the progression of the joint degenerative process in the MIA model was performed on days 3, 7, 14, 21 and 28 post injection. Heterogeneous nociceptive central molecular events were observed in respect to the time course of the pathology’s progression. Changes in selected spinal neuropeptide content (substance P, CGRP, dynorphin A, Big dynorphin) began 7 days following the MIA injection. Most severe joint structural damage on histology occured between days 14 and 21 post injection. These results suggest that preclinical drug evaluation employing this model should be conducted between 7 and 21 days post injection when the lesions resemble most those of human OA. iii As current pharmacological therapy for the alleviation of joint pain does not achieve the unanimity in respect to efficacy, side effects and cost, plant derivate compounds are now interesting alternatives to improve the situation. Eugenol, the main constituent of clove oil, was evaluated for its efficacy for alleviation of joint pain in rats who previously received an intra-articular injection of mono-iodoacetate to induce the MIA model. Eugenol, administered orally for 28 consecutive days at a dose of 40 mg/kg, improved gait pattern and reduced secondary mechanical allodynia. Furthermore, spinal concentrations of pronociceptive neuropeptides were also decreased in the treated animals. No toxic effects of the compoud were identified on histopathological assessment of the various tissues. These results suggest that eugenol could be a potential therapeutic option for alleviating OA joint pain.

Douleur articulaire

Arthrose

Modèle animal

Rat

Analyse de la démarche

Allodynie mécanique secondaire

Neuropeptides

Eugénol

Traitement pharmacologique

Joint pain

Osteoarthritis

Animal models

Rat

Gait analysis

Secondary mechanical allodynia

Neuropeptides

Eugenol

Pharmacological treatment

Caractérisation d'un modèle animal de douleur articulaire associée à l'arthrose du genou chez le rat Sprague-Dawley

Ferland-Legault, Catherine Estelle

06 1900

La douleur articulaire associée à l’arthrose est un problème clinique majeur, spécialement chez les personnes âgées. L’intensité de la douleur est souvent amplifiée lors de mouvement de l’articulation et principalement lors du soutien de la charge corporelle sur le membre lésé. Malheureusement, les traitements pharmacologiques proposés sont trop souvent associés à des effets secondaires néfastes et à une inefficacité pour le soulagement de la douleur à long terme. Divers modèles murins sont utilisés en laboratoire de recherche pour des études précliniques de molécules aux propriétés analgésiques. Une évaluation comparative de la réponse comportementale douloureuse des animaux d’un modèle d’instabilité articulaire induit par le sectionnement du ligament croisé antérieur accompagné d’une méniscectomie partielle (le modèle ACLT+pMMx) et d’un modèle de dégénérescence articulaire induite par le monoiodoacetate (le modèle MIA) a permis de sélectionner un modèle approprié pour la continuité du projet. Les deux modèles ont démontré des lésions tissulaires, mais le modèle MIA a démontré une réponse douloureuse plus prononcée que le modèle ACLT+pMMx. Par l’analyse de la démarche, le modèle MIA a démontré une boiterie claire dans le patron de la démarche des animaux qui est associée à une lésion unilatérale. Le modèle MIA a donc été choisi pour la suite du projet. La problématique principale dans la recherche sur la douleur associée à l’arthrose est une compréhension incomplète des mécanismes de douleur responsables de l’induction et du maintien de l’état de douleur. Il devient donc nécessaire d’améliorer nos connaissances de ces mécanismes en effectuant une caractérisation plus approfondie des modèles animaux employés pour l’évaluation de stratégies pharmacologiques analgésiantes. Afin de bien comprendre le modèle MIA, une caractérisation des événements moléculaires centraux lors de la progression du processus dégénératif des structures articulaires de ce modèle s’est effectuée aux jours 3, 7, 14, 21 et 28 post injection. Des mécanismes hétérogènes qui modulent l’information nociceptive en fonction de la progression temporelle de la pathologie ont été observés. Les changements du contenu i spinal des neuropeptides sélectionnés (substance P, CGRP, dynorphine A et Big dynorphine) ont débuté sept jours suivant l’injection de MIA. L’observation histologique a démontré que les dommages structuraux les plus importants surviennent entre les jours 14 et 21. C’est entre les jours 7 et 21 que les lésions démontrent le plus de similarités à la pathologie humaine. Cela suggère que lors d’une évaluation préclinique d’un traitement pharmacologique pour pallier la douleur articulaire utilisant le modèle MIA, l’étude doit tenir compte de ces événements afin de maximiser l’évaluation de son efficacité. Puisque les traitements pharmacologiques conventionnels proposés pour le soulagement de la douleur ne font pas l’unanimité en terme d’efficacité, d’effets non désirés et de coûts monétaires parfois onéreux, les molécules de dérivés de plante deviennent une alternative intéressante. L’eugénol, le principal constituant de l’huile de clou de girofle, a été administré oralement pour une période de 28 jours chez des rats ayant reçu l’injection intra-articulaire de MIA afin d’évaluer son efficacité pour le traitement de la douleur articulaire. L’eugénol à une dose de 40 mg/kg s’est révélé efficace pour l’amélioration du patron de la démarche des animaux ainsi que pour la diminution de l’allodynie mécanique secondaire. De plus, les concentrations spinales de neuropeptides pronocicepteurs ont diminué chez les animaux traités. Par une évaluation histopathologique, l’eugénol n’a démontré aucune évidence d’effets toxiques suite à une administration per os quotidienne pour une période prolongée. Ces résultats suggèrent le potentiel thérapeutique complémentaire de la molécule d’eugénol pour le traitement de la douleur articulaire. / Pain is the most predominant clinical symptom associated with osteoarthritis (OA), mostly among older people. Joint movement and weight bearing often increase the pain intensity. Unfortunately, the proposed pharmacological treatments are frequently associated with side effects and ineffective for pain alleviation for long time periods. Many murine models are used in laboratories for preclinical studies evaluating analgesic compounds. A comparative evaluation of the behavioral pain responses of animals with a joint instability model induced by the transection of the anterior cruciate ligament followed by a partial menisectomy (the ACLT+pMMx model) and of an articular degenerative model induced by an intra-articular injection of monoiodoacetate (the MIA model) was conducted to select an appropriate model for the continuation of the project. Both models demonstrated articular lésions, however the MIA model demonstrated a clearer behavioral pain response over the ACLT+pMMx model. The gait pattern of the MIA model revealed a clear limping gait similar to that observed with unilateral OA in humans. The MIA model was chosen for the subsequent studies. An unresolved issue in pain OA research is the lack of understanding of the pain mechanisms responsible for the induction and maintenance of the pain. Therefore, there is an urgent clinical need to improve the characterization of animal models to effectively discover novel pain relief pharmacological treatment stratégies for OA patients. A characterization of the spinal pain molecular events during the progression of the joint degenerative process in the MIA model was performed on days 3, 7, 14, 21 and 28 post injection. Heterogeneous nociceptive central molecular events were observed in respect to the time course of the pathology’s progression. Changes in selected spinal neuropeptide content (substance P, CGRP, dynorphin A, Big dynorphin) began 7 days following the MIA injection. Most severe joint structural damage on histology occured between days 14 and 21 post injection. These results suggest that preclinical drug evaluation employing this model should be conducted between 7 and 21 days post injection when the lesions resemble most those of human OA. iii As current pharmacological therapy for the alleviation of joint pain does not achieve the unanimity in respect to efficacy, side effects and cost, plant derivate compounds are now interesting alternatives to improve the situation. Eugenol, the main constituent of clove oil, was evaluated for its efficacy for alleviation of joint pain in rats who previously received an intra-articular injection of mono-iodoacetate to induce the MIA model. Eugenol, administered orally for 28 consecutive days at a dose of 40 mg/kg, improved gait pattern and reduced secondary mechanical allodynia. Furthermore, spinal concentrations of pronociceptive neuropeptides were also decreased in the treated animals. No toxic effects of the compoud were identified on histopathological assessment of the various tissues. These results suggest that eugenol could be a potential therapeutic option for alleviating OA joint pain.

Douleur articulaire

Arthrose

Modèle animal

Rat

Analyse de la démarche

Allodynie mécanique secondaire

Neuropeptides

Eugénol

Traitement pharmacologique

Joint pain

Osteoarthritis

Animal models

Rat

Gait analysis

Secondary mechanical allodynia

Neuropeptides

Eugenol

Pharmacological treatment