Sensorimotor dysfunction following incomplete spinal cord injury (iSCI) is often characterized by the debilitating symptoms of paralysis, spasticity and pain, which require treatment with novel pleiotropic pharmacological agents. Previous in vitro studies suggest that Albumin (Alb) and Oleic Acid (OA) may play a role together as an endogenous neurotrophic factor. Although Alb can promote basic recovery of motor function after iSCI, the therapeutic effect of OA or Alb-OA on a known translational measure of SCI associated with symptoms of spasticity and change in nociception has not been studied. Following T9 spinal contusion injury in Wistar rats, intrathecal treatment with: i) Saline, ii) Alb (0.4 nanomoles), iii) OA (80 nanomoles), iv) Alb-Elaidic acid (0.4/80 nanomoles), or v) Alb-OA (0.4/80 nanomoles) were evaluated on basic motor function, temporal summation of noxious reflex activity, and with a new test of descending modulation of spinal activity below the SCI up to one month after injury. Albumin, OA and Alb-OA treatment inhibited nociceptive Tibialis Anterior (TA) reflex activity. Moreover Alb-OA synergistically promoted early recovery of locomotor activity to 50±10% of control and promoted de novo phasic descending inhibition of TA noxious reflex activity to 47±5% following non-invasive electrical conditioning stimulation applied above the iSCI. Spinal L4–L5 immunohistochemistry demonstrated a unique increase in serotonin fibre innervation up to 4.2±1.1 and 2.3±0.3 fold within the dorsal and ventral horn respectively with Alb-OA treatment when compared to uninjured tissue, in addition to a reduction in NR1 NMDA receptor phosphorylation and microglia reactivity. Early recovery of voluntary motor function accompanied with tonic and de novo phasic descending inhibition of nociceptive TA flexor reflex activity following Alb-OA treatment, mediated via known endogenous spinal mechanisms of action, suggests a clinical application of this novel neurotrophic factor for the treatment of paralysis, spasticity and pain.
Objectives: This study examined predictive correlations between periaqueductal gray (PAG) and anterior cingulate cortex (ACC) metabolite levels with deficient inhibitory endogenous pain modulation (EPM), including sensory and affective measures of pain during chronic whiplash injury (WHI). Materials and Methods: Healthy patients, and participants with chronic WHI, without (WHI-noP) or with pain (WHI-P), were screened with the Douleur Neuropathique 4 tool (DN4). EPM was assessed with C6 tonic heat pain stimuli with a Conditioned Pain Modulation (CPM) protocol. Magnetic resonance spectroscopy quantified ACC and PAG metabolite levels. Results: WHI-P participants were characterized with high pain intensity and interference, and lower quality of life scores, compared with WHI-noP. Inhibitory CPM at 30 seconds was identified in the healthy noninjured (−45±16%; P<0.001) and WHI-noP groups (−36±8%; P<0.001). However, inhibitory EPM was not detected in the WHI-P group (−25±15%; P=0.06). Best fit and stepwise multiple regression revealed that the PAG glutamate/myoinositol metabolite ratio (P=0.01) and total creatine levels (P=0.02) predicted loss of EPM in the WHI-P group (r 2=0.71, α=0.97). Although myoinositol predicted loss of EPM in the ACC (P=0.04), this was below statistical power (r 2=0.31; α=0.56). The ACC N-acetyl-aspartate/myoinositol ratio (P=0.006) predicted chronic pain (DN4, r 2=0.53; α=0.87). Discussion: The results of this study demonstrate deficient EPM at 30 seconds during tonic heat pain stimulation in WHI-P participants, compared with noninjured healthy volunteers or individuals with WHI-noP. In addition, quantification of PAG and ACC metabolites related to glutamate and glia predicted central chronic pain mechanisms related to loss of inhibitory EPM, while ACC metabolites characterized chronic pain described by descriptors and sensory changes.
The p38α mitogenous activated protein kinase (MAPK) cell signaling pathway is a key mechanism of microglia activation and has been studied as a target for neuropathic pain. The effect of UR13870, a p38α MAPK inhibitor, on microglia expression in the anterior cingulate cortex (ACC) and spinal dorsal horn was addressed after T9 contusion spinal cord injury (SCI) in the rat, in addition to behavioral testing of pain-related aversion and anxiety. Administration of intravenous UR13870 (1mg/kg i.v.) and pregabalin (30 mg/kg i.v.) reduced place escape avoidance paradigm (PEAP) but did not affect open-field anxiety behavior 42 days after SCI. PEAP behavior was also reduced in animals administered daily with oral UR13870 (10mg/kg p.o.) and preserved spinal tissue 28 days after SCI. Although UR13870 (10mg/kg p.o.) failed to reduce OX-42 and glial fibrillar acid protein immunoreactivity within the spinal dorsal horn, a reduction toward the control level was observed close to the SCI site. In the anterior cingulate cortex (ACC), a significant increase in OX-42 immunoreactivity was identified after SCI. UR13870 (10mg/kg p.o.) treatment significantly reduced OX-42, metabotropic glutamate type 5 receptor (mGluR5), and NMDA (N-methyl-d-aspartate) 2B subunit receptor (NR2B) expression in the ACC after SCI. To conclude, oral treatment with a p38α MAPK inhibitor reduces the affective behavioral component of pain after SCI in association with a reduction of microglia and specific glutamate receptors within the ACC. Nevertheless the role of neuroinflammatory processes within the vicinity of the SCI site in the development of affective neuropathic pain cannot be excluded.
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