Nitric Oxide and Opioids Involvement in Isobolographic Nsaids Antinociception.

Different NSAIDs are used as antinociceptive in various analgesic assays, among which should be mentioned: ibuprofen, ketorolac , ketoprofen, meloxicam , paracetamol and others. It has been shown that NSAIDs possess antinociceptive activity by blocking cyclooxygenase enzymes (COXs). The present study was designed to evaluate the possible involvement of the nitridergic pathway due to L-NAME and the opioidergic route by NTX in the antinoception induced by NSAIDs using a murine pain model the tail flick test in an automatic tail flick algesiometer. The antinociception was evaluated by means of isobolographic analysis. The interaction between the combination of NSAIDs, via i.p., on basis of their ED25, demonstrated that the coadministration of the drugs were synergistic with the exception of the lack of effect in combination of meloxicam with ibuprofen and with ketorolac, since the result was additive. These data validate that the NSAIDs administered alone or in combinations produce antinociception in which other mechanisms of action must be added to the simple inhibition of COXs. In addition, the pretreatment of the mice with L-NAME and NTX does not change previous isobolographic parameters of the mixture of NSAIDs.

Non-steroidal Anti-inflammatory Drugs in Tonic, Phasic and Inflammatory Mouse Models.

The principal mechanism of action of non-steroidal anti-inflammatory drugs (NSAIDs) is the inhibition of ciclooxigenases. In this study was evaluated if NSAIDs could induce antinociceptive differences according to the type of murine pain model. Male mice were injected intraperitoneally with meloxicam, diclofenac, piroxicam, metamizol, ibuprofen, naproxen and paracetamol in the writhing, tail flick and formalin orofacial tests and dose-response were analyzed to obtain the ED50 of each drugs. Administration of NSAIDs produced in a dose-dependent antinociception with different potency in the tests. The relative potency of NSAIDs among the tests shows a value of 5.53 in the orofacial formalin test in phase I and 6.34 in phase II between meloxicam and paracetamol; of 7.60 in the writhing test between meloxicam and paracetamol and of 8.46 in the tail flick test between ibuprofen and paracetamol. If the comparison is made for each NSAID in the different tests, the minimum value was 0.01 for between writhing and phase II of the orofacial formalin. Meanwhile, the highest power ratio was 11.71 for diclofenac between writhing and tail flick tests. In conclusion, the results suggests that intraperitoneal NSAIDs administration induce antinociceptive activity depending on the type of pain. The results support that NSAIDs administration, induce a wide variety of antinociceptive effect, depending on the type of pain. This suggest the participation of different mechanisms of action that can be added to the simple inhibition of COXs controlled by NSAIDs.

Synergism between gabapentin-tramadol in experimental diabetic neuropathic pain.

Neuropathic pain is associated with several conditions such as surgery, cancer, and diabetes and can be induced experimentally. Among the drugs used as monotherapy are gabapentin and tramadol. The purpose of this study was to evaluate the coadministration of gabapentin and tramadol, by isobolographic analysis, in three different algesiometric assays in experimental diabetic neuropathic pain induced by streptozocin in mice. In all the behavioral tests, gabapentin or tramadol produced a dose-dependent antinociception and their coadministration resulted in a positive interaction. This effect can be explained by principles of multimodal analgesia, whereby the different mechanisms of action of each drug contribute to the combined effect in a supra-additive manner. The findings of the present study suggest that the combination of gabapentin and tramadol could be a useful strategy for the treatment of pain induced by diabetic neuropathy.

Contribuições da psicanálise ao acompanhamento terapêutico: alguns apontamentos para a formação clínica do psicólogo / The contributions of psychoanalysis to therapeutic accompaniment: notes for psychologist’s clinical qualification / Aportes del psicoanálisis al acompañamiento terapéutico: algunas notas para la formación clínica del psicólogo

Este artigo reflete sobre as contribuições da psicanálise ao dispositivo clínico do acompanhamento terapêutico (AT). Apresenta o relato de experiência dos integrantes de um projeto de extensão de AT que foi desenvolvido em parceria entre uma universidade pública e a rede municipal de atenção à Saúde Mental, promovendo o acompanhamento de usuários que se encontravam em sofrimento psíquico grave, com o diagnóstico de psicose. Além disso, busca articular essa experiência com a análise teórica da psicanálise, que sustentou essa prática. Dessa forma, o artigo se propõe a dar visibilidade aos desafios e potencialidades encontrados na prática do AT bem como a analisar a importância desse dispositivo para a formação clínica do psicólogo, a ampliação do setting terapêutico e o fortalecimento da Reforma Psiquiátrica

This article is about the contributions of psychoanalysis to the clinical device for therapeutic accompaniment (TA). It displays the experience report from participants of a TA extension project which was developed in a partnership between a public university and the municipal mental health care network, developing the accompaniment of subjects who were in severe psychological suffering, diagnosed as psychosis. It also seeks to connect this experience with the theoretical analysis of psychoanalysis, which provided support for this practice. Thus, the article aims to give visibility to the challenges and opportunities existing in the AT practice, as well as to examine the importance of this device for psychologists’ clinical qualification, the expansion of the therapeutic setting and the strengthening of the Psychiatric Reform.

Este artículo hace una reflexión sobre las contribuciones del psicoanálisis al dispositivo clínico del acompañamiento terapéutico (AT). Presenta el relato de las experiencias de los integrantes de un proyecto de extensión de AT que fue desarrollado en colaboración entre una universidad pública y la red municipal de atención a la salud mental, promoviendo un seguimiento de usuarios que se encontraban en sufrimiento psíquico grave, con el diagnóstico de psicosis. Además de eso, se trata de articular esta experiencia con el análisis teórico del psicoanálisis, que fue el que sustentó esta práctica. De esta forma, el artículo se propone dar visibilidad a los desafíos y potencialidades encontrados en la práctica del AT, así como a analizar la importancia de este dispositivo para la formación clínica del psicólogo, la ampliación del setting terapéutico y el fortalecimiento de la Reforma Psiquiátrica.

Antinociception induced by rosuvastatin in murine neuropathic pain.

BACKGROUND: Neuropathic pain, and subsequent hypernociception, can be induced in mice by paclitaxel (PTX) administration and partial sciatic nerve ligation (PSNL). Its pharmacotherapy has been a clinical challenge, due to a lack of effective treatment. In two models of mouse neuropathic pain (PTX and PSNL) the antinociception induced by rosuvastatin and the participation of proinflammatory biomarkers, interleukin (IL)- 1ß, TBARS and glutathione were evaluated. METHODS: A dose-response curve for rosuvastatin ip was obtained on cold plate, hot plate and Von Frey assays. Changes on spinal cord levels of IL-1ß, glutathione and lipid peroxidation were measured at 7 and 14days in PTX and PSNL murine models. RESULTS: PTX or PSNL were able to induce in mice peripheral neuropathy with hypernociception, either to 7 and 14days. Rosuvastatin induced a dose dependent antinociception in hot plate, cold plate and Von Frey assays. The increased levels of IL-1ß or TBARS induced by pretreatment with PTX or PSNL were reduced by rosuvastatin. The reduction of spinal cord glutathione, by PTX or PSNL, expressed as the ratio GSH/GSSG, were increased significantly in animals pretreated with rosuvastatin. The anti-inflammatory properties of statins could underlie their beneficial effects on neuropathic pain by reduction of proinflammatory biomarkers and activation of glia. CONCLUSION: The findings of this study suggest a potential usefulness of rosuvastatin in the treatment of neuropathic pain.

Pharmacological profile of dexketoprofen in orofacial pain.

BACKGROUND: Non-steroidal anti-inflammatory drugs (NSAIDs) may act through others mechanisms, in addition to inhibition of prostaglandin synthesis. These includes cholinergic, NO, serotonergic and opioids pathways. METHODS: The aim of this work was to evaluate the effect of systemic action of (S)-+-ketoprofen (dexketoprofen, DEX) on pain behaviors using the orofacial formalin test in mice and the potential involvement of cholinergic, NO, serotonergic and opioids pathways. RESULTS: The pretreatment of the mice with 1mg/kg ip of atropine or opoid antagonists: 1mg/kg, ip of NTX or 1mg/kg ip of NTI or 1mg/kg of NOR-BNI ip, did not produce significant change in the ED50 values of the antinociception to orofacial test induced by DEX. The pretreatment of the mice with 0.5mg/kg ip tropisetron, increased in a significant fashion the values of ED50 of DEX. When the mice were treated with 5mg/kg ip of L-NAME or 25mg/kg ip of aminoguanidine or 50mg/kg ip of 7-nitroindazole reversed the antinociception of DEX. CONCLUSION: The findings of this study demonstrate activation of NO and 5-HTpathways play important roles in the systemic antinociceptive effect of DEX in a murine model of inflammatory pain.

Antinociceptive Interaction of Tramadol with Gabapentin in Experimental Mononeuropathic Pain.

Neuropathic pain is the result of injury to the nervous system, and different animal models have been established to meet the manifestations of neuropathy. The pharmacotherapy for neuropathic pain includes gabapentin and tramadol, but these are only partially effective when given alone. The aim of this study was to assess the antinociceptive interaction between both drugs using the isobolographic analysis and changes of the IL-1ß concentration in a mouse model of neuropathic pain (partial sciatic nerve ligation or PSNL). The i.p. administration of gabapentin (5-100 mg/kg) or tramadol (12.5-100 mg/kg) displayed a dose-dependent antinociception in the hot plate assay of PSNL mice, and effects induced by gabapentin with tramadol were synergistic. Administration of gabapentin or tramadol reversed significantly the increase in the concentration of IL-1ß induced by PSNL after either 7 or 14 days and their combination was significantly more potent in reversing the elevated concentration of IL-1ß. The synergism obtained by the co-administration of gabapentin and tramadol is proposed to result from action on different mechanisms in pain pathways. Gabapentin or tramadol or their combination modulates the expression of pro-inflammatory cytokine, IL-1ß, in a model of mice PSNL which could be due to an inhibition of glial function.

Isobolographic analysis of the opioid-opioid interactions in a tonic and a phasic mouse model of induced nociceptive pain.

BACKGROUND: Opioids have been used for the management of pain and coadministration of two opioids may induce synergism. In a model of tonic pain, the acetic acid writhing test and in a phasic model, the hot plate, the antinociceptive interaction between fentanyl, methadone, morphine, and tramadol was evaluated. RESULTS: The potency of opioids in the writhing test compared to the hot plate assay was from 2.5 (fentanyl) to 15.5 (morphine) times, respectively. The ED50 was used in a fixed ratio for each of the six pairs of opioid combinations, which, resulted in a synergistic antinociception except for methadone/tramadol and fentanyl/tramadol which were additive, in the hot plate. The opioid antagonists naltrexone, naltrindole and nor-binaltorphimine, suggests that the synergism of morphine combinations are due to the activation of MOR subtypes with partially contribution of DOR and KOR, however fentanyl and methadone combinations are partially due to the activation of MOR and DOR subtypes and KOR lack of participation. The antinociceptive effects of tramadol combinations, are partially due to the activation of MOR, DOR and KOR opioid subtypes. CONCLUSION: These results suggets that effectiveness and magnitude of the interactions between opioids are dependent on pain stimulus intensity.