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Query: EC:2.7.11.8 (
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758
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Because of the growing need for an animal model of complex partial seizures based on a genetic predisposition, we combined the kindling model of epilepsy with selective-breeding procedures to develop two new lines (or strains) of rats that are kindling-prone or kindling-resistant. The selection of these strains was based on their rates of amygdala kindling. From a parent population of Long
Evans
hooded and Wistar rats, the males and females that showed the fastest and slowest amygdala kindling rates were selected and bred. Similar selection procedures continued through F11, although there was little or no overlap in the distribution of kindling rates for the two new strains (
FAST
and SLOW) by F6. Examination of both local and propagating seizure profiles of the new strains from F6 to F10 revealed that the
FAST
and SLOW rats had similar amygdala afterdischarge (AD) thresholds and associated AD durations. Also, the convulsion profiles of the stage-5 responses were similar, although the severity was greater in the
FAST
rats. Clearly the selection was not based on local mechanisms controlling the threshold for amygdala AD evocation, but rather for the spread of AD from the focus and the recruitment of other structures, ultimately triggering convulsive seizures. Although evoked potentials and potentiation effects were similar between the strains, the SLOW rats showed a greater paired-pulse depression, raising the possibility that they differ in inhibitory mechanisms. The specificity of strain differences for the amygdala and its associated networks is described in our accompanying paper (McIntyre et al., 1999.
FAST
and SLOW amygdala kindling rat strains: Comparison of amygdala, hippocampal, piriform and perirhinal cortex kindling. Epilepsy Res. 35, 197-209). These strains should provide many clues to the dispositional differences between individuals for the development of epilepsy originating in temporal lobe structures.
...
PMID:Development of kindling-prone and kindling-resistant rats: selective breeding and electrophysiological studies. 1041 14
In our companion paper, we selectively bred offspring of a Long
Evans
Hooded and Wistar rat cross for either fast or slow rates of amygdala kindling (Racine et al., 1999. Development of kindling-prone and kindling resistant rats: Selective breeding and electrophysiological studies, Epilepsy Res. 35, 183-195). Within 10 generations, there was no overlap in the distribution of kindling rates between these newly developed
FAST
and SLOW kindling strains. In the present report, we compared the local excitability, kindling rates, and convulsion profiles of kindling sites in either the amygdala, dorsal hippocampus, piriform cortex or perirhinal cortex in the two strains. Local excitability, measured as the local afterdischarge (AD) threshold and its duration, showed varied effects between structures and strains. Before kindling, the AD threshold was lower in the
FAST
than the SLOW rats in the hippocampus, piriform and perirhinal cortices, but not the amygdala (the selection structure). Also, the duration of the AD threshold duration was significantly longer in the
FAST
than in the SLOW rats in all structures, except the CA1 hippocampus. Most of these differences were maintained after kindling. Kindling itself was significantly faster in the
FAST
compared with the SLOW rats in all structures; however, the different structural kindling rates showed proportional differences between strains that were about five times different in the amygdala compared with only about two times different in the hippocampus. This suggested a selection bias for the amygdala and its networks. As in other rat strains, the fastest kindling rates were seen in the perirhinal cortex followed by the piriform cortex, amygdala and hippocampus in both
FAST
and SLOW rats. Other important differences between strains and structures occurred in the stage-5 convulsion profiles, including latency to forelimb clonus, clonus duration and duration of associated local afterdischarges. The differences in kindling profiles between strains and structures were discussed with respect to possible underlying mechanisms, significance for epileptogenesis, and impact on other normal behaviours.
...
PMID:FAST and SLOW amygdala kindling rat strains: comparison of amygdala, hippocampal, piriform and perirhinal cortex kindling. 1041 15
