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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0036572 (
seizures
)
80,221
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In this study, we report the possibility of producing marked electrocorticographic changes and "pain-like" reactions, when the GABAA antagonist picrotoxin is microinjected unilateraly into the rat somato-motor Sml cortex in the region of the hind paw. After the microinjection, we observed continuous
seizure
isolated spikes, spikes-and-waves, bursts, and pain-like reactions, almost exclusively confined to the hind paw. These reactions considered of lifting off the floor, licking of the paw palm or digits, biting, paw tremors, and a peculiar paw position that we called "turn-in" paw. We also noted other behaviors, such as "limping," "neglected" paw, or rearing. The "pain-like" character of these manifestations was suggested by the fact that similar qualitative and quantitative data occurred consequent to the administration of 2.5% diluted formalin into the palm of the hind paw in different rats. Bringing together the electrocorticographic events and the behavioral reactions produced by Sml picrotoxin indicated that there was no obvious correlation between the phenomena, except that the tremor was always associated with the bursts.
Sensory denervation
of the hind paw, produced by sciatic and saphenous nerve transections, did not significantly modify either the ictal activity or the behavior. Finally, microinjection of naloxone prior to picrotoxin did not change the cortical events, but greatly diminished the "pain-like" reactions. All these results favor the cortical microinjection of a GABAA receptor antagonist as a good rat model for studying pain of "central" origin. They emphasize the possible role of the Sml cortex in such a phenomenon, and the deficit of cortical GABAergic processing, which can include an opioid link.
...
PMID:Picrotoxin produces a "central" pain-like syndrome when microinjected into the somato-motor cortex of the rat. 894 86
The combination of axial spasms in clusters, hypsarrhythmia, and psychomotor delay beginning in the first year of life defines West syndrome. Variants of this classical triad comprise variations of age of onset ranging from the first month to 4 years, spasms that may be asymmetrical or combined with focal
seizures
, asymmetrical, synchronous or fragmented hypsarrhythmia, and psychomotor function which may be delayed, deteriorated or normal. These variations mainly seem to depend on etiology, and specific patterns have been identified for the various causes. Most causes relate to non-progressive uni- or multifocal cortical lesions, although some are due to inborn errors of metabolism. Ten to 20% exhibit no evidence of brain lesion and are considered idiopathic. This condition is intermediary between epilepsy in which the disorder is limited to paroxysmal events during which time the patient returns to his prior condition, and status epilepticus in which the paroxysmal activity is not interrupted. Here, there are both paroxysmal events and a continuous non-convulsive paroxysmal activity that contributes to the deterioration. In the present understanding of pathophysiology, spasms seem to involve subcortical structures, whereas hypsarrhythmia affects cortical areas, also causing psychomotor deterioration.
Deafferentation
of subcortical structures by the continuous spiking and slow wave activity could account for release of autonomic activity in the basal ganglia. Cortical paroxysmal activity could be caused by age-related hyperexcitability linked to the development of cortical neuronal networks throughout infancy. The mode of action of steroid and vigabatrin therapies, the two therapies with demonstrated efficacy, can be explained on this basis.
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PMID:What is West syndrome? 1170 Dec 38
