NMDA receptor-independent synaptic plasticity in the central amygdala in the rat model of neuropathic pain

Neurons in the latero-capsular part of the central nucleus of the amygdala (CeA), a region now called the "nociceptive amygdala", receive predominantly nociceptive information from the dorsal horn through afferent pathways relayed at the nucleus parabrachialis (PB). Excitatory synaptic transmission between the PB afferents and these neurons is reported to become potentiated within a few hours of the establishment of arthritic or visceral pain, making it a possible mechanism linking chronic pain and unpleasant negative emotional experiences. However, it remains unknown whether such synaptic potentiation is consolidated or becomes adaptively extinct in the longer-lasting form of chronic pain, such as neuropathic pain, an as yet serious and frequent type of pain of important clinical concern. To address this issue, we recorded postsynaptic currents in CeA neurons evoked by PB tract stimulation in acute brain slices from young rats with neuropathic pain, as evaluated by tactile allodynic responses, following unilateral spinal nerve ligature made 1 week earlier. CeA neurons contralateral to the nerve ligation showed significantly larger-amplitude postsynaptic currents than those in the ipsilateral CeA and sham- and non-operated groups. The degree of synaptic potentiation, as compared between two sides, was positively correlated to that of tactile allodynia responses. In addition, blockade of NMDA receptors did not affect this potentiation. We conclude that potentiation of the PB-CeA synapse is consolidated in long-lasting neuropathic pain but that this potentiation results from a molecular mechanism distinct from that in arthritic and visceral pain.     

Localisation and modulation of prostanoid receptors EP1 and EP4 in the rat chronic constriction injury model of neuropathic pain.

Immunohistochemistry was used to examine the expression of prostaglandin E(2) receptors EP1 and EP4 in sciatic nerves from the rat chronic constriction injury (CCI) model of neuropathic pain. At 21 days post-surgery the CCI rats had developed mechanical hyperalgesia on the operated side, and quantitative image analysis showed a highly significant doubling of the area occupied by EP1- and EP4-positive pixels in sections from CCI nerves when compared to sham-operated controls. Co-localisation studies with the marker ED1 revealed that 73% of the EP1-positive cells and 54% of the EP4-positive cells in the injured nerves represented infiltrating macrophages. Cells negative for ED1 and positive for either EP1 or EP4 were characterised as Schwann cells from their morphology and expression of myelin basic protein and S100 antigens. Similar EP1- and EP4-positive Schwann cell profiles were observed in sections of uninjured control nerves. Low levels of EP receptor expression were found in neurofilament-immunostained axons, but no consistent differences were observed in the levels of axonal EP staining between CCI and control tissue. These data provide further evidence of the importance of prostaglandins in the pathogenesis of neuropathic pain, and suggest that not only infiltrating macrophages but also Schwann cells may be involved in the modulation of these mediators in response to nerve injury.     

Effects of the novel analgesic,cizolirtine, in a rat model of neuropathic pain

Cizolirtine (5-9[(N,N-dimethylaminoethoxy)phenyl]methyl0-1-methyl-1H-pyrazol citrate) is a centrally acting analgesic with a currently unknown mechanism of action, whose efficacy has been demonstrated in various models of acute and inflammatory pain in rodents. Further studies were performed in order to assess its potential antinociceptive action in a well-validated model of neuropathic pain, i.e. that produced by unilateral sciatic nerve constriction in rats. Animals were subjected to relevant behavioural tests based on mechanical (vocalization threshold to paw pressure) and thermal (struggle latency to paw immersion in a cold (10 degrees C) water bath) stimuli, 2 weeks after sciatic nerve constriction, when pain-related behaviour was fully developed. Acute pretreatment with 2.5-10 mg/kg p.o. of cizolirtine reversed both mechanical and thermal allodynia. These effects were antagonized by prior injection of the alpha(2)-adrenoceptor antagonist idazoxan (0.5 mg/kg i.v.), but not the opioid receptor antagonist naloxone (0.1 mg/kg i.v.). On the other hand, cizolirtine (10 mg/kg p.o.) produced no motor deficits in animals using the rotarod test. Our study showed that cizolirtine suppressed pain-related behavioural responses to mechanical and cold stimuli in neuropathic rats, probably via an alpha(2)-adrenoceptor-dependent mechanism. These results suggest that cizolirtine may be useful for alleviating some neuropathic somatosensory disorders, in particular cold allodynia, with a reduced risk of undesirable side effects.     

Comparison of the anti-allodynic and antinociceptive effects of systemic; intrathecal and intracerebroventricular morphine in a rat model of central neuropathic pain.

The present study has assessed the efficacy and potency of systemic, intrathecal (i.t.) and intracerebroventricular (i.c.v.) morphine in alleviating a chronic mechanical allodynia-like behaviour in a rat model of central pain after spinal cord injury. The anti-allodynic potency of morphine was compared to its antinociceptive potency in both spinally injured and normal rats. Systemic (intraperitoneal or subcutaneous) morphine did not significantly relieve allodynia up to 3 mg/kg cumulative dose, which was sedative. Mechanical allodynia-like behaviour was only significantly relieved by l0 mg/kg morphine which caused severe sedation. Low doses of i.c.v. morphine abolished vocalization of allodynic rats to von Frey hair stimulation. However, other components of abnormal reactions to innocuous mechanical stimulation, such as agitation, jumping and avoidance, were only relieved by i.c.v. morphine at high, sedative doses. In contrast, i.t. morphine dose dependently reversed all components of the allodynic reactions without causing sedation. Morphine administered by all three routes produced powerful antinociception in the tail flick test in normal rats. The antinociceptive potency of morphine was reduced after systemic, i.t. and, particularly, i.c.v. administration in allodynic rats. These results indicated that i.t. morphine relieved the mechanical allodynia-like responses in spinally injured rats, whereas systemic or i.c.v. morphine only increased the response threshold to innocuous mechanical stimulation at high doses, which was associated with sedation, making it difficult to assess the anti-allodynic effect. However, i.c.v. morphine may be particularly effective for the affective component of pain in the present model. The antinociceptive potency of morphine was also reduced in spinally injured rats. It is suggested that morphine may be differentially effective against different types of pain after different routes of administration. Spinal morphine may be a therapeutic alternative in treating central pain after spinal cord injury.     

Characteristics of ectopic discharges in a rat neuropathic pain model

Injured afferent neurons produce spontaneous activity that is generated away from the normal impulse generation site. Since this activity, referred to as ectopic discharges, may play a significant role in neuropathic pain, it is important to systematically analyze the activity in various pain states. The present study used the segmental spinal nerve injury model of neuropathic pain to quantify the ectopic discharges from injured afferents in the neuropathic rat under various conditions. All aspects of measured ectopic discharges declined as postoperative time lengthened. Neuropathic pain behaviors declined in a similar fashion over the same time period. Surgical sympathectomy on neuropathic animals lowered the level of ectopic discharges along with neuropathic pain behaviors. The data indicate that the level of ectopic discharges is well correlated with that of pain behaviors in a rat neuropathic pain model, and this reinforces the supposition that ectopic discharges are important to the maintenance of neuropathic pain behaviors. The data suggest that there are two components of ectopic discharge generator mechanisms: sympathetically dependent and sympathetically independent components.     

Role of nucleus accumbens in neuropathic pain: Linked multi-scale evidence in the rat transitioning to neuropathic pain

Despite recent evidence implicating the nucleus accumbens (NAc) as causally involved in the transition to chronic pain in humans, underlying mechanisms of this involvement remain entirely unknown. Here we elucidate mechanisms of NAc reorganizational properties (longitudinally and cross-sectionally), in an animal model of neuropathic pain (spared nerve injury [SNI]). We observed interrelated changes: (1) In resting-state functional magnetic resonance imaging (fMRI), functional connectivity of the NAc to dorsal striatum and cortex was reduced 28 days (but not 5 days) after SNI; (2) Contralateral to SNI injury, gene expression of NAc dopamine 1A, 2, and κ-opioid receptors decreased 28 days after SNI; (3) In SNI (but not sham), covariance of gene expression was upregulated at 5 days and settled to a new state at 28 days; and (4) NAc functional connectivity correlated with dopamine receptor gene expression and with tactile allodynia. Moreover, interruption of NAc activity (via lidocaine infusion) reversibly alleviated neuropathic pain in SNI animals. Together, these results demonstrate macroscopic (fMRI) and molecular reorganization of NAc and indicate that NAc neuronal activity is necessary for full expression of neuropathic pain-like behavior.     

Treatment of peripheral neuropathic pain: a simulation model.

OBJECTIVE: To describe the use of a generalizable stochastic-simulation model of the treatment of neuropathic pain associated with peripheral neuropathies. METHODS: We developed a model to simulate treatment outcomes in a hypothetical cohort of patients with peripheral neuropathies. Each patient was randomly assigned an average pretreatment daily pain score (on a 0-10 scale), based on an assumed distribution of mean pretreatment pain scores in the cohort. Patients were randomly assigned daily pain scores, based on their pretreatment average and an assumed distribution of daily pain scores around this mean. Treatment outcomes were then simulated using the expected mean change (vs. baseline) in pain scores. Model outcomes include the expected increase in days with no or mild pain (score < or = 3), days with > or = 30% and > or = 50% reductions in pain intensity, and days with 2- and 3-point absolute reductions in pain intensity. To illustrate its use, the model was estimated over a 12-week period using data from a recent clinical trial of a new antiepileptic (pregabalin). RESULTS: Treatment over 12 weeks (84 days) was projected to result in 26 (+/-0.4) (mean [+/-SE]) additional (vs. no treatment) days with no or mild pain, 33 (+/-0.5) days with a > or = 30% reduction in pain intensity, 28 (+/-0.4) days with > or = 50% reduction in pain intensity, and 34 (+/-0.5) and 30 (+/-0.5) days with > or = 2-point and > or = 3-point absolute reductions in pain intensity. CONCLUSIONS: When combined with data on health-state utilities and treatment costs, this new analytical tool can provide a foundation for formal cost-effectiveness evaluations of interventions for painful peripheral neuropathies.     

Acute amitriptyline in a rat model of neuropathic pain: differential symptom and route effects

The present study was designed to determine whether amitriptyline, a prototypical tricyclic antidepressant, could produce pain relieving properties in a rat model of neuropathic pain. Nerve injury was produced by tight ligation of the lumbar 5th and 6th dorsal roots and this resulted in persistent stimulus evoked neuropathic pain symptoms (tactile allodynia and thermal hyperalgesia). Thermal hyperalgesia was measured using a focused light beam directed at the ventral surface of the paw while tactile allodynia was determined using Semmes–Weinstein monofilaments applied to the ventral surface of the paw. Amitriptyline was administered systemically (intraperitoneal), spinally (intrathecal cannula), and locally (subcutaneously) via direct injection into the dorsal surface of the paw. Following systemic administration, amitriptyline completely reversed thermal hyperalgesia (10 mg/kg) in the injured paw. Spinal administration of amitriptyline (60 μg) also produced an antihyperalgesic effect. Interestingly, local administration of amitriptyline (100 nmol) had an immediate antihyperalgesic effect that persisted for 120 min following administration. Amitriptyline had no alleviating effect against mechanical allodynia regardless of the route of administration, but curiously, produced hyperaesthesia in the contralateral paw. These results indicate that in the rat model of spinal nerve ligation, amitriptyline is effective in alleviating thermal hyperalgesia (systemically, spinally and locally) but is ineffective against mechanical allodynia. The peripheral efficacy of amitriptyline suggests the possibility of the development of cream formulations that may be able to increase the local concentration of amitriptyline without increasing the systemic dose and the subsequent occurrence of side effects.     

Spermidine reduced neuropathic pain in chronic constriction injury-induced peripheral neuropathy in rats

Neuropathic pain is one of the most critical types of chronic pain despite the increasing advances in medical science. Spermidine (SPD) is a natural polyamine that has wide roles in several cellular processes inducing autophagy and reducing oxidative stress. This study aimed to investigate the effects of SPD on oxidative stress markers and pain threshold in the neuropathic rat model of chronic constriction injury (CCI) model. Eighteen adult male rats were divided into three groups: sham, CCI and CCI+SPD. After induction of neuropathy via CCI model in the CCI and CCI+SPD groups, SPD (1 mg/kg/day, orally) was administered to the CCI+SPD group for 3 weeks. The behavioral tests (von Frey, hot plate) were done four times during the experiment. At the end of the study, electrophysiological tests, the H & E staining, and oxidative stress assay of the prefrontal cortex (PFC), spinal cord, and sciatic nerve were performed. The threshold of pain in hot plate and von Frey tests was significantly lower in the CCI group than in the sham group, which was reversed by SPD treatment in the CCI+ SPD group. In addition, nerve conduction was considerably lower in the CCI group than in the sham and CCI+SPD groups (P < 0.01, P < 0.05, respectively). The CCI group showed neuronal degeneration and fibrosis in the different tissues in the H & E assay; elevated tissues level of nitrite, decreased levels of superoxide dismutase (SOD), glutathione (GPx), and catalase were also observed. However, SPD treatment modulated the pathological changes and oxidative stress biomarkers. In conclusion, SPD showed beneficial effects in decreasing neuropathic pains. SPD treatment reduced oxidative stress and improved histopathological changes and behavioral tests in the CCI-induced neuropathic pain in in vivo model.     

Regulated, electroporation-mediated delivery of pro-opiomelanocortin gene suppresses chronic constriction injury-induced neuropathic pain in rats

We previously reported that intrathecal pro-opiomelanocortin gene electroporation could reduce pain sensitivity induced by chronic constriction injury (CCI) of the sciatic nerve. For optimal use of antinociceptive gene therapy, it might be important to control the expression of the transfected gene extrinsically. For this purpose, a doxycycline-controlled transrepressor system composed of two plasmids coding, respectively, for pro-opiomelanocortin gene (pTRE2-POMC) and the silencer (pTel-off) was employed. The regulation of beta-endorphin expression was first assessed in spinal neuronal culture, then we electrotranfected this plasmid into the spinal cord of mononeuropathic rats and evaluated the analgesic potential of this therapy in vivo by thermal and mechanical withdrawal latency. Intraperitoneal injections of various doses of doxycycline were made to elucidate the possible exogenous downregulation of transfected beta-endorphin gene expression in vivo. The levels of beta-endorphin were analyzed by intrathecal microdialysis and radioimmunoassay. Intrathecal pTRE2-POMC/pTel-off electroporation elevated spinal beta-endorphin levels, as manifested in a significantly elevated pain threshold for chronic constriction injury limbs. Intraperitoneal doxycycline decreased the antinociceptive effect and spinal beta-endorphin levels in a dose-dependent manner. We concluded that intrathecal pTRE2-POMC/pTel-off electroporation alleviates CCI-induced limb pain, and can be controlled by intraperitoneal doxycycline administration.     

Therapeutic extradural cortical stimulation for central and neuropathic pain: a review.

OBJECTIVE: Extradural cortical stimulation is a recent addition to the armamentarium of functional neurosurgery. This article reviews results of treatment of chronic central and neuropathic pain. CONCLUSIONS: It is concluded that extradural cortical stimulation may be effective in several refractory cases.     

Comparative actions of the opioid analgesics morphine, methadone and codeine in rat models of peripheral and central neuropathic pain

Controversy persists in relation to the analgesic efficacy of opioids in neuropathic pain. In the present study the effects of acute, subcutaneous administration of the mu-opioid receptor agonists morphine, methadone and codeine were examined in rat models of peripheral and central neuropathic pain. In the spared nerve injury (SNI) and chronic constriction injury (CCI) models of peripheral neuropathic pain, both morphine (6mg/kg) and methadone (3mg/kg) attenuated mechanical allodynia, mechanical hyperalgesia and cold allodynia for up to 1.5h post-injection (P<0.05); codeine (30mg/kg) minimally alleviated mechanical hypersensitivity in SNI, but not CCI rats. When administered to rats with photochemically-induced spinal cord injury (SCI), morphine (2 and 6mg/kg) and methadone (0.5-3mg/kg) robustly attenuated mechanical and cold allodynia for at least 2h post-injection (P<0.05). Codeine (10 and 30mg/kg) also attenuated mechanical and cold allodynia in this model for at least 3h after injection. The magnitude of opioid-mediated antinociception was similar between SNI, SCI and non-injured rats as measured in the tail flick test. At antinociceptive doses, no motor impairment as determined by the rotarod test was observed. The therapeutic window (based on antiallodynia versus ataxia) obtained for codeine, was vastly superior to that obtained with morphine or methadone in SNI and SCI rats. Furthermore, the therapeutic window for codeine in SCI rats was 4-fold greater than in SNI rats. Our results further support the efficacy of mu-opioid receptor agonists in alleviating signs of neuropathic pain in animal models of peripheral and especially central nerve injury.     

The effect of electroacupuncture on pain behaviors and noxious stimulus-evoked Fos expression in a rat model of neuropathic pain.

Chronic-constriction injury (CCI) of the sciatic nerve causes mechanical and heat hyperalgesia and mechanical allodynia in the plantar surface of the hindpaw. The underlying mechanism thought to account for these phenomena include central sensitization induced by peripheral nerve injury, ie, the increase in neuronal activity of spinal dorsal horn neurons. As a marker of neuronal activation of the central nervous system, Fos expression has been used widely to monitor the change in neuronal activity evoked by peripheral input. In this study, we examined the antinociceptive effect of electroacupuncture (EA) on pain behavior and noxious stimulus-evoked Fos expression in dorsal horn neurons of the spinal cord in CCI rats 14 days after injury. Male Sprague-Dawley rats (180 to 200 g) received loose ligation of the left sciatic nerve. Heat and mechanical hyperalgesia and mechanical allodynia were examined by the plantar foot test, the pin-prick test, and the von Frey test before and after the EA treatment (100 Hz, 0.3 millisecond, 3 or 1 mA, 20 minutes) into the Zusanli point (S36). When EA stimulation to the Zusanli point was applied, the mechanical and heat hyperalgesia were significantly suppressed; however, mechanical allodynia was not affected. The EA stimulation to nonacupuncture point did not show any significant effect. Next, pinch stimulation was applied to the plantar surface of the operated hindpaw of the CCI rats for 10 minutes, and the stimulus-evoked Fos expression in dorsal horn neurons in L4-L6 spinal cord levels was then examined by using immunohistochemistry. The number of noxious stimulus-evoked Fos-labeled neurons in both the superficial and deep laminae of the dorsal horn in the CCI rats was increased significantly compared with those in sham-operated rats, suggesting an increased excitability of dorsal horn neurons to noxious stimuli. Concurrent EA treatment to the Zusanli point with the pinch stimulus suppressed the increase in the number of Fos-labeled cells in the spinal dorsal horn in the CCI rats. The present results show that EA treatment has antinociceptive effects on both pain behavior and neuronal activation of the spinal dorsal horn neurons in CCI rats.     

The spectrum of fiber loss in a model of neuropathic pain in the rat: an electron microscopic study.

Recently, Bennett and Xie reported that when the sciatic nerve of the rat is ligated loosely, the rat develops a pain syndrome with many features similar to those observed in neuropathic pain states in man. Anatomical and physiological studies to date indicate that the major pathology is a loss of large diameter myelinated fibers distal to the ligatures, with more subtle changes in small myelinated fibers. With a view to evaluating possible changes in the unmyelinated fibers, we have performed an electron microscopic analysis of the sciatic nerve 2 weeks after four ligatures were applied, at which time the animals displayed profound hyperalgesia and mechanical and thermal allodynia. Cross-sectional photomontages of regions proximal and distal to the ligatures were studied. Consistent with light microscopic and electrophysiological studies, we found a near complete loss of large myelinated fibers distal to the ligatures. Phagocytosis of large fibers was common. There was also considerable variation in the damage to small myelinated fibers. In some fascicles many small (less than 3 microns) myelinated axons remained; in other fascicles none could be detected. Importantly, we also found significant changes in the unmyelinated fiber spectrum. Counts of unmyelinated axons revealed a 34% and 71% decrease in the distal compared to the proximal nerve, in the two rats studied. The large clusters of unmyelinated axons that characterize normal nerve (and the nerve proximal to the ligatures) were rarely found distally. Rather, many of the unmyelinated axons coursed singly or in very loose bundles. Many of the surviving axons were shrunken and distorted, although still in contact with Schwann cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chronic neuropathic pain in spinal cord injured patients: What is the effectiveness of surgical treatments excluding central neurostimulations?

ObjectivesAnalyzing the literature and elaborating recommendations on the following topics: relevance of dorsal root entry zone (DREZ) lesions, surgical treatment for posttraumatic syringomyelia, other therapeutic approaches (peripheral nerve root pain, nerve trunk pain and Sign Posterior Cord [SCI] pain).Material and MethodsThe methodology used, proposed by the French Society of Physical Medicine and Rehabilitation (SOFMER), includes a systematic review of the literature, the gathering of information regarding current clinical practices and a validation by a multidisciplinary panel of experts.ResultsNinety-two articles were selected, 10 with a level of evidence at 2, 82 with a level of evidence at 4. Some articles lacked information on the type of injury, the pain characteristics and the symptoms’ evolution over time.DrezThis type of procedure has been validated for its effectiveness on pain at the level of injury (transitional zone pain), but is inefficient for pain located below the level of injury. Posttraumatic syringomyelia (PTS): suspected when there is an increased neurological impairment, changes below the level of injury (mainly bladder dysfunctions) or a sudden onset of pain. The surgery associates arachnoid grafting, cyst drainage, expansile dural plasty (same treatment for posttraumatic tethered spinal cord and posttraumatic myelomalacia).Peripheral nerve root, nerve trunk or transitional zone painSurgical implants (screws or clips) can generate radicular pain caused by inflammation and they can even move around with time. The material-induced constraints can also trigger pain. Surgical removal of osteosynthesis material (with an eventual saddle block) remains a simple procedure yielding good results. Correcting surgeries can also be performed (malunion and nonunion). Finally, compressive neuropathies (carpal tunnel syndrome, ulnar nerve entrapment) already have a well-defined treatment.ConclusionThe literature review can define the relevance of surgical treatments on some types of SCI pain. However, the results of many articles are difficult to analyze, as they do not report clinical or follow-up data.