Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0026838 (spasticity)
 6,471 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Twelve female mongrel dogs were made paraplegic by midthoracic spinal cord transection. Beginning at 9 weeks posttransection, either glycine (50 mg/kg) or saline was injected intramuscularly each day and the signs of spinal spasticity were assessed clinically. After treating the dogs for 3 weeks, we removed the lumbar enlargement of each dog and microdissected it into gray and white areas which we assayed for glycine, glutamate, and aspartate content. Some of the clinical signs of spasticity improved in the animals injected with glycine compared to the saline-injected controls. The content of glycine was significantly elevated in the central gray matter and ventral medial white matter of the glycine-treated dogs. The levels of glutamate were also significantly elevated in the central, lateral ventral, and medial ventral gray matter and in the dorsal lateral and ventral medial white matter of the glycine-treated dogs. The possible role of these segmental putative neurotransmitters in spinal spasticity is discussed.
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PMID:Effects of glycine administration on canine experimental spinal spasticity and the levels of glycine, glutamate, and aspartate in the lumbar spinal cord. 44 May 47

The triad of rigidity, fever, and elevation of serum creatine phosphokinase (CPK) levels, labeled 'neuroleptic malignant syndrome' (NMS), is a dangerous complication of neuroleptic drug treatment. Amantadine was introduced for the pharmacological management of NMS because of its beneficial effects in Parkinson's disease which were attributed to direct or indirect dopaminomimetic properties of amantadine. While the dopaminomimetic effects of amantadine are weak under experimental conditions, recent studies have confirmed that amantadine is an antagonist at the N-methyl-D-aspartate (NMDA) type of glutamate receptor. Two lines of evidence suggest that amantadine or other NMDA receptor antagonists could be effective drugs for the reversal of NMS symptoms. First, glutamate antagonists restore the balance between glutamatergic and dopaminergic systems when dopaminergic transmission has been antagonized by neuroleptic drugs. Second, by virtue of their effects against rigor and spasticity, NMDA antagonists may reduce increased muscle tone and prevent rhabdomyolysis. In conclusion, NMS may be considered an iatrogenic excitatory aminoacid syndrome which is amenable to NMDA receptor antagonist therapy.
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PMID:A rationale for NMDA receptor antagonist therapy of the neuroleptic malignant syndrome. 133 36

Spasticity is characterized by pathological overactivity in spinal stretch reflex circuits and may be associated with disturbances in excitatory amino acid-mediated transmission in the cord. A genetically determined syndrome of spasticity in the rat permits the quantitative evaluation of the antispastic effects of drugs by recording activity in the electromyogram (EMG) from a hind limb extensor muscle. In genetically spastic rats, systemic administration of the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA) antagonist, 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(F) quinoxaline (NBQX), normalized pathologically increased EMG activity, whereas the AMPA agonist, alpha-amino-3-hydroxy-5-tertbutyl-4-isoxazolepropionate (ATPA), exacerbated the EMG measures of spasticity. The reflex mechanisms in the spinal cord can be studied in mice using EMG recordings from the tibial muscle (Hoffmann reflex) or from the plantar foot muscle (flexor reflex) after electrical stimulation of the tibial nerve. Systemic and i.t. administration of NBQX blocked Hoffmann reflexes in mice, leaving flexor reflexes unchanged. ATPA enhanced Hoffmann, and had no effect on flexor reflexes. The effects of NBQX on spinal reflexes were seen in doses which do not affect locomotor activity, but show anxiolytic and some antiepileptic activity in rodents. These data suggest that the design of novel muscle relaxant drugs acting at the AMPA subtype of glutamate receptors may be feasible.
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PMID:Relief of experimental spasticity and anxiolytic/anticonvulsant actions of the alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate antagonist 2,3-dihydroxy-6-nitro-7-sulfamoyl-benzo(F)quinoxaline. 137 Nov 59

Memantine, used as a drug for treatment of spasticity and other extrapyramidal disorders as well as dementia, was shown to prevent brain damage caused by the glutamate (N-methyl-D-aspartate, NMDA) receptor agonist, quinolinic acid. Studies were focused on the hippocampal formation which is known to be highly vulnerable to quinolinate. Pretreatment of animals with memantine added to the food led to a reliable protection of hippocampal neurons when the drug was administered chronically for a period of 10 days prior to quinolinate exposure (i.c.v. injected). Additional i.p. administration of memantine (simultaneously with quinolinic acid or up to 24 h later) did not substantially add to the protective potency of the memantine diet. Our findings indicate that memantine may have beneficial effects in the treatment of brain disorders which are mediated by excitotoxic effects of glutamate.
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PMID:Memantine prevents quinolinic acid-induced hippocampal damage. 142 71

Continuous posterior epidural spinal cord stimulation (SCS) has been an effective method for treating spasticity. The mechanisms of SCS include activation of inhibitory segmental neuronal systems and suprasegmental structures that produce inhibitory descending control. The neurochemical correlates of the mechanism of action have not been clearly defined. Microdialysis of the spinal cord extracellular space in an in vivo preparation during continuous epidural SCS was performed. The recovery of amino acid neurotransmitters, aspartate, glutamate, gamma-aminobutyric acid (GABA), glycine, and taurine from stimulated animals was compared to non-stimulated animals. Evoked potentials from the cortex and spinal cord of the stimulated animals were recorded to insure that there had been adequate epidural stimulation and normal segmental cord function. A significant increase in the concentration of glycine was seen after 90 minutes of continuous stimulation. The levels of the other amino acids were not significantly elevated. These results suggest that amelioration of spasticity with epidural SCS may involve enhanced glycine release, the major inhibitory neurotransmitter of the spinal cord.
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PMID:Recovery of amino acid neurotransmitters from the spinal cord during posterior epidural stimulation: a preliminary study. 167 8

The high-affinity uptake of [3H]serotonin, [3H]glutamate, and [3H]gamma-aminobutyric acid [( 3H]GABA) and the Na+-independent binding of [3H]glutamate and [3H]GABA were studied using spinal cord preparations obtained from normal mongrel dogs and from dogs made paraplegic by midthoracic spinal cord crush. Lumbosacral regions of the spinal cord were removed either before (1 week) or after (3 to 8 weeks) onset of spasticity. A myelin-free synaptosomal fraction was obtained by centrifugation and used for studying high-affinity uptake and for preparing synaptic plasma membranes for Na+-independent binding experiments. For the paraplegic groups, the uptake of 30 nM [3H]serotonin was 66 and 18% of control values after 1 and 3 weeks, respectively. Eadie-Hofstee analysis of [3H]serotonin uptake showed a 90% reduction in Vmax for the paraplegic group relative to control values, thereby indicating the expected loss of descending serotonergic pathways. The high-affinity uptakes of 1 microM [3H]glutamate and [3H]GABA were the same in both the control and nonspastic paraplegic groups after 1 week. However, after 3 weeks, the uptakes of [3H]glutamate and [3H]GABA were 60-70% higher for the spastic group than for the control animals. For both amino acids, Eadie-Hofstee plots revealed no difference in Km and higher Vmax for the spastic group relative to control values. After 1 and 3 weeks, the Na+-independent binding of 5 nM [3H]glutamate was 40-85% higher and the binding of 10 nM [3H]GABA was 40-60% lower for the paraplegic groups relative to the values for the control animals.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations of amino acid transmitter systems in spinal cords of chronic paraplegic dogs. 614 26

An in vitro mammalian model neuronal system to evaluate the intrinsic toxicity of soman and other neurotoxicants as well as the efficacy of potential countermeasures was investigated. The link between soman toxicity, glutamate hyperactivity and neuronal death in the central nervous system was investigated in primary dissociated cell cultures from rat hippocampus and cerebral neocortex. Exposure of cortical or hippocampal neurons to glutamate for 30 min produced neuronal death in almost 80% of the cells examined at 24 h. Hippocampal neurons exposed to soman for 15-120 min at 0.1 microM concentration caused almost complete inhibition (> or = 90%) of acetylcholinesterase but failed to show any evidence of effects on cell viability, indicating a lack of direct cytotoxicity by this agent. Acetylcholine (ACh, 0.1 mM), alone or in combination with soman, did not potentiate glutamate toxicity in hippocampal neurons. Memantine, a drug used for the therapy of Parkinson's disease, spasticity and other brain disorders, significantly protected hippocampal and cortical neurons in culture against glutamate and N-methyl-D-aspartate (NMDA) excitotoxicity. In rats a single dose of memantine (18 mg/kg) administered 1 h prior to a s.c. injection of a 0.9 LD50 dose of soman reduced the severity of convulsions and increased survival. Survival, however, was accompanied by neuronal loss in the frontal cortex, piriform cortex and hippocampus.
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PMID:Assessment of primary neuronal culture as a model for soman-induced neurotoxicity and effectiveness of memantine as a neuroprotective drug. 749 76

The neurotoxicity mediated by alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), an agonist for glutamate receptors, was investigated by infusing adult rats with this agent intrathecally for either a short term (2 hours) or a long term (7 days) using a mechanical pump or a mini-osmotic pump, respectively. In the short-term infusion group, spasticity of the hindlimbs developed during infusion at 0.5 nmol/h or more of AMPA, tremors at 50 nmol/h or more, and flaccidity at 65 nmol/h or more. One day later, flaccid paralysis of the hindlimbs and urinary incontinence were observed in the rats that received 50 nmol/h (total dose: 100 nmol) or more of AMPA. These symptoms were thought to be permanent. On the other hand, in the long-term infusion group, behavioral changes were apparent only after second postoperative day, when rats displayed hindlimb palsy or urinary incontinence. Behavioral deficits became progressively severe, and rats usually displayed both hindlimb paraplegia and urinary incontinence by the 7th postoperative day. These progressive behavioral deficits were induced in a dose-dependent manner in rats that received AMPA at doses greater than 0.1 nmol/h. Gliosis with neuronal loss involving the partial (lumbar segments) and whole (sacral segments) gray matter of the spinal cord was induced in rats that received AMPA at doses greater than 50 nmol/h in the short-term infusion group and greater than 0.1 nmol/h in the long-term infusion group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Toxicity of AMPA, an excitatory amino acid, to rat spinal cord neurons under intrathecal administration]. 752 35

Suppression of increased muscle tone by epidural spinal cord stimulation, an invasive method for treating spasticity, increases segmental concentrations of inhibitory amino acid neurotransmitters, particularly glycine. The role of glycine in spasticity and spinal shock was explored further in rabbits with ischemic spinal cord injuries that produced spastic paraparesis or flaccid paraplegia. H-reflexes were monitored following posterior tibial nerve stimulation and plantar surface recording. Spasticity was quantified by using H/M ratios. Spastic animals were intrathecally infused with 100 mmol/l solutions of glycine and related compounds. Glycine agonists suppressed tone whereas glycine antagonists increased tone. In addition, microdialysis sampling from the cord was done in injured, non-infused animals and aspartate, GABA, glutamate, glycine and taurine were measured. Flaccid animals had glycine levels two-three times higher than spastic or control animals. High concentrations of glycine within spinal cord segments is associated with spinal shock. Glycine and related compounds may be useful as treatment for excessive tone.
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PMID:The role of glycine in spinal shock. 923 88

Amyotrophic lateral sclerosis (ALS) is a motor neuron disease with evidence of both anterior horn cell and corticospinal tract degeneration. The incidence of ALS is 1 to 2.5 cases per 100,000 population and the disease occurs primarily in adult life. The etiology of sporadic ALS remains unknown, although 5 to 10% of cases are familial. The diagnosis of ALS requires the presence of both upper and lower motor neuron findings and progressive motor dysfunction. Several theories regarding the pathogenesis of ALS have emerged including glutamate excitotoxicity, free radical oxidative stress, neurofilament accumulation, and autoimmunity. Clinical trials involving antiglutamate agents, antioxidants, immunosuppressants, and growth factors have shown no substantial benefit in slowing progression, with death usually occurring 2 to 5 years following the onset of symptoms. The management of ALS patients requires a multidisciplinary team that can provide the numerous medical and physical interventions necessary to treat weakness and fatigue, bulbar dysfunction, spasticity and pain, depression, and respiratory failure.
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PMID:Amyotrophic lateral sclerosis. 956 65


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