Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Visceral pain is a prevalent clinical problem and one of the most common ailments for which patients seek medical attention. Recent studies have described many of the physiological properties of visceral afferents, but not much is known regarding their anatomical characteristics. To determine the spinal distribution and neurochemical phenotype of colonic afferents in rodents, Alexa Fluor-conjugated cholera toxin-beta (CTB) was injected subserosally into the proximal and distal portions of the descending colon in Sprague Dawley rats and C57Bl/6 mice. Dorsal root ganglia (T10-S2) were processed for fluorescent immunohistochemistry and visualized by confocal microscopy. In the mouse, CTB-positive neurons were most numerous in the lumbosacral region (LS; L6-S1), with a smaller contribution in the thoracolumbar ganglia (TL; T13-L1). In contrast, CTB-positive neurons in the rat were most numerous in the TL ganglia, with a smaller contribution in the LS ganglia. The vast majority of CTB-positive neurons in both mouse and rat were positive for TRPV1 and CGRP and most likely unmyelinated, in that most colonic afferents were not positive for neurofilament heavy chain. In the mouse, the TL ganglia had a significantly higher percentage of TRPV1- and CGRP-positive neurons than did the LS ganglia, whereas no differences were observed in the rat. The high incidence of TRPV1-positive colonic afferents in rodents suggests that hypersensitivity from the viscera may be partially a TRPV1-mediated event, thereby providing a suitable target for the treatment of visceral pain.
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PMID:Differences in spinal distribution and neurochemical phenotype of colonic afferents in mouse and rat. 1632 Feb 37

A six-month-old, intact female, Miniature Pinscher was admitted with signs of progressive neurological deficits in the hind legs, an elevated rectal temperature, and spinal pain of 48 hours duration. A myelogram was performed which demonstrated a dorsal, left sided compressive lesion extending from T11-T13. A left-sided hemilaminectomy was performed from T11-T13. A friable, poorly organized, pale tan and red mass was identified within the epidural space. Cytopathological and histopathological analyses of the mass demonstrated marked, subacute, suppurative cellulitis. A culture of the purulent material revealed beta haemolytic Streptococcus sp.
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PMID:Spinal epidural abscess in a juvenile dog. 1659 51

Embryonic stem (ES) cells have been investigated in repair of the CNS following neuronal injury and disease; however, the efficacy of these cells in treatment of postinjury pain is far from clear. In this study, we evaluated the therapeutic potential of predifferentiated mouse ES cells to restore sensory deficits following spinal cord injury (SCI) in mice. The pain model used unilateral intraspinal injection of quisqualic acid (QUIS) into the dorsal horn between vertebral levels T13 and L1. Seven days later, 60,000 predifferentiated ES cells or media were transplanted into the site of the lesion. Histological analysis at 7, 14, and 60 days post-transplantation revealed that animals receiving ES cell transplants suffered significantly less tissue damage than animals receiving media alone. Transplanted cells provided immediate effects on both spontaneous and evoked pain behaviors. Treatment with ES cells resulted in 0% (n = 28) excessive grooming behavior versus 60% (18 of 30) in media-treated animals. In the acetone test (to assess thermal allodynia), mice recovered to preinjury levels by 12 days after ES cell transplant, whereas control animals injected with media after SCI did not show any improvement up to 60 days. Similarly, the von Frey test (to assess mechanical allodynia) and the formalin test (to assess nociceptive hyperalgesia) showed that transplantation of predifferentiated ES cells significantly reduced these pain behaviors following injury. Here we show that predifferentiated ES cells act in a neuroprotective manner and provide antinociceptive and therapeutic effects following excitotoxic SCI.
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PMID:Predifferentiated embryonic stem cells prevent chronic pain behaviors and restore sensory function following spinal cord injury in mice. 1683 66

In this study, we investigated the role of the spinal GABAergic system in central neuropathic painlike outcomes following spinal cord injury (SCI) produced by a spinal hemitransection at T13 of the rat. After SCI, mechanical allodynia develops bilaterally in both hind paws of the rat, lasting longer than 40 days, as evidenced by an increase in paw withdrawal frequency in response to a weak von Frey filament. In naive rats, intrathecal (i.t.) administration in the lumbar spinal cord of GABAA and GABAB receptor antagonists, bicuculline (1-5 microg) and phaclofen (0.1-5 microg), respectively, causes a dose-dependent increase in the magnitude of mechanical allodynia. The SCI-induced mechanical allodynia in both hind-paws is attenuated by i.t. administration in the lumbar spinal cord of GABAA or GABAB receptor agonists, muscimol (1 microg) or baclofen (0.5 microg), respectively. In electrophysiological experiments, rats with SCI show a bilateral increase in hyperexcitability in response to natural stimuli in wide dynamic range (WDR) neurons in the lumbar spinal dorsal horn. The topical application of muscimol (1 microg) or baclofen (0.5 microg) onto the lumbar cord surface reduce the SCIinduced increased responsiveness of WDR neurons. Inhibitory effects of muscimol and baclofen on both the behavioral mechanical allodynia and the hyperexcitability in WDR neuron with SCI compared to controls, were antagonized by pre-treatment of bicuculline (10 microg) and phaclofen (5 microg), respectively. This study provides behavioral and electrophysiological evidence for the important role of the loss of spinal inhibitory tone, mediated by activation of both GABAA and GABAB receptors, in the development of central neuropathic pain following SCI.
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PMID:Activation of spinal GABA receptors attenuates chronic central neuropathic pain after spinal cord injury. 1686 24

Three dogs were presented for investigation of spinal disease and were diagnosed with extradural spinal juxtafacet cysts of synovial origin. Two dogs that were presented with clinical signs consistent with pain in the lumbosacral region associated with bilateral hindlimb paresis were diagnosed using magnetic resonance imaging. Both cysts were solitary and associated with the L6-7 dorsal articulations; both the dogs had a transitional vertebra in the lumbosacral region. A third dog that was presented with progressive paraparesis localised to T3-L3 spinal cord segments and compression of the spinal cord at T13-L1 was diagnosed using myelography. A solitary multiloculated cyst was found at surgery. Decompressive surgery resulted in resolution of the clinical signs in all three dogs. Immunohistological findings indicated that one to two layers of vimentin-positive cells consistent with synovial origin lined the cysts.
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PMID:Extradural spinal juxtafacet (synovial) cysts in three dogs. 1728 67

In this study, we examined whether a competitive AMPA receptor antagonist, NBQX, attenuates mechanical allodynia and hyperexcitability of spinal neurons in remote, caudal regions in persistent central neuropathic pain following spinal cord injury in rats. Spinal cord injury was produced by unilateral T13 transverse spinal hemisection, from dorsal to ventral, in male Sprague Dawley rats (200-250 g). Mechanical thresholds were measured behaviorally, and the excitability of wide-dynamic-range (WDR) dorsal horn neurons in the lumbar cord (L4-L5) was measured to assess central neuropathicpain. On postoperation day (POD) 28 after spinalhemisection, mechanical thresholds were significantly decreased in both injured (ipsilateral) and noninjured (contralateral) hindpaws compared with preinjury and sham control, respectively (P < 0.05). Intrathecal administration of NBQX (0.25, 0.5, 1 mM) significantly reversed the decreased mechanical thresholds in both hindpaws, dose dependently (P < 0.05). The excitability of WDR neurons was significantly enhanced on both sides of the lumbar dorsal horn 28 days following spinal hemisection (P < 0.05). The hyperexcitability of WDR neurons was attenuated by topical administration of NBQX (0.125, 0.25, 0.5, 1 mM), dose dependently (P < 0.05). Regression analysis indicated that at least three molecules of NBQX bond per receptor complex, and are needed to achieve inhibition of WDR hyperexcitability. In conclusion, our study demonstrates that the AMPA receptor plays an important role in behaviors related to the maintenance of central neuropathic pain below the level of spinal cord injury.
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PMID:Spinal AMPA receptor inhibition attenuates mechanical allodynia and neuronal hyperexcitability following spinal cord injury in rats. 1754 53

A 6-year-old neutered male Rottweiler had chronic episodic signs of thoracolumbar pain and inability to stand that did not improve after rest and nonsteroidal antiinflammatory medication. In magnetic resonance images, an extradural mass was identified between the spinal cord and the T13/L1 intervertebral disc; the mass was compressing the cord in a dorsoventral direction. The lesion had a low signal intensity rim that enhanced slightly after gadolinium administration, and contents with similar signal intensity to cerebrospinal fluid. The lesion was removed surgically by severing its attachments to the annulus fibrosus. The histologic diagnosis was degenerative intraspinal cyst. The origin of such cysts, and their relationship to synovial and ganglion cysts is discussed.
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PMID:Imaging diagnosis--degenerative intraspinal cyst associated with an intervertebral disc. 1789 76

Neuropathic pain is a long-lasting clinical problem that is often refractory to medical management. Gene transfer of specific genes for therapeutic benefit offers a novel approach to the treatment of neuropathic pain. In this study, we tested whether the transfer of the glutamic acid decarboxylase (GAD) gene to dorsal root ganglion (DRG) cells would attenuate below-injury level central neuropathic pain after spinal cord injury (SCI) by using a novel human foamy virus (HFV) vector to achieve release of gamma-aminobutyric acid (GABA). Subcutaneous inoculation of a replication-defective HFV vector, which expresses GAD (vector rdvGAD67) for 7days after T13 spinal cord hemisection, reversed mechanical allodynia and thermal hyperalgesia evoked by SCI. The antiallodynic effect lasted 6 weeks and was reestablished by reinoculation. We also found that subcutaneous inoculation of rdvGAD67 resulted in enhanced production of GAD and tonical GABA release from transduced DRG neurons. These results suggest that HFV-mediated gene transfer to DRG could be employed to treat below-injury level central neuropathic pain after incomplete SCI.
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PMID:A novel human foamy virus mediated gene transfer of GAD67 reduces neuropathic pain following spinal cord injury. 1818 Jan 6

Using a rat model the characteristics of the sensory neurones of the dorsal-root ganglia (DRG) innervating the hip were investigated by retrograde neurotransport and immunohistochemistry. Fluoro-Gold solution (FG) was injected into the left hip of ten rats. Seven days later the DRG from both sides between T12 and L6 were harvested. The number of FG-labelled calcitonin gene-related peptide-immunoreactive or isolectin B4-binding neurones were counted. The FG-labelled neurones were distributed throughout the left DRGs between T13 and L5, primarily at L2, L3, and L4. Few FG-labelled isolectin B4-binding neurones were present in the DRGs of either side between T13 and L5, but calcitonin gene-related peptide-immunoreactive neurones made up 30% of all FG-labelled neurones. Our findings may explain the referral of pain from the hip to the thigh or lower leg corresponding to the L2, L3 and L4 levels. Since most neurones are calcitonin gene-related peptide-immunoreactive peptide-containing neurones, they may have a more significant role in the perception of pain in the hip as peptidergic DRG neurones.
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PMID:The characteristics of dorsal-root ganglia and sensory innervation of the hip in rats. 1825

In this study, we evaluated whether propentofylline, a methylxanthine derivative, modulates spinal glial activation and GABAergic inhibitory tone by modulation of glutamic acid decarboxylase (GAD)(65), the GABA synthase enzyme, in the spinal dorsal horn following spinal cord injury (SCI). Sprague-Dawley rats (225-250 g) were given a unilateral spinal transverse injury, from dorsal to ventral, at the T13 spinal segment. Unilateral spinal injured rats developed robust bilateral hindlimb mechanical allodynia and hyperexcitability of spinal wide dynamic range (WDR) neurons in the lumbar enlargement (L4-L5) compared to sham controls, which was attenuated by intrathecal (i.t.) administration of GABA, dose-dependently (0.01, 0.1, 0.5 microg). Western blotting and immunohistochemical data demonstrated that the expression level of GAD(65) protein significantly decreased on both sides of the lumbar dorsal horn (L4/5) after SCI (p<0.05). In addition, astrocytes and microglia showed soma hypertrophy as determined by increased soma area and increased GFAP and CD11b on both sides of the lumbar dorsal horn compared to sham controls, respectively (p<0.05). Intrathecal treatment with propentofylline (PPF 10 mM) significantly attenuated the astrocytic and microglial soma hypertrophy and mechanical allodynia (p<0.05). Additionally, the Western blotting and immunohistochemistry data demonstrated that i.t. treatment of PPF significantly prevented the decrease of GAD(65) expression in both sides of the lumbar dorsal horn following SCI (p<0.05). In conclusion, our present data demonstrate that propentofylline modulates glia activation and GABAergic inhibitory tone by modulation of GAD(65) protein expression following spinal cord injury.
Pain 2008 Aug 31
PMID:Propentofylline attenuates allodynia, glial activation and modulates GABAergic tone after spinal cord injury in the rat. 1835 56


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