The effect of a glycine derivative (CP 1552-S) on kindled seizures in rats

The effects of the glycine derivative, CP 1552-S (2-N-pentylaminoacetamide hydrochloride) were evaluated for potential anticonvulsant activity in rats which were cortically- or amygdaloid-kindled. Large doses (300-600 mg/kg, i.p.) of CP 1552 given 30 min before stimulation resulted in significant reductions in duration of afterdischarge after both partially-developed and fully-developed cortically-kindled seizures. The largest dose tested (600 mg/kg, i.p.) markedly reduced the duration of the elicited afterdischarge and the severity of seizure. This dose was associated with prestimulation sedation and a 50% incidence of post-afterdischarge spontaneous, electrical seizure activity. Against kindled amygdaloid seizures, CP 1552-S significantly reduced the duration of afterdischarge at 300 mg/kg (i.p.) without modifying the seizure and without prestimulation behavioral or electrical effects. The largest dose tested (600 mg/kg, i.p.) resulted in a significant reduction of the elicited duration of afterdischarge but was associated with a 25% incidence of prestimulation spontaneous electrical seizure activity and a 45% incidence of post-afterdischarge electrical seizure activity. When CP 1552-S (30-300 mg/kg, i.p.) was administered daily, prior to the amygdaloid kindling stimulus, no difference was noted in the rate of acquisition of the kindled amygdaloid response. It is concluded that the glycine derivative CP 1552-S, has little anticonvulsant activity against the acquisition or development of kindled amygdaloid seizures. It appears to have significant anticonvulsant effects against both cortically- and amygdaloid-kindled afterdischarges with little effect on the behavioral severity of the seizure. Further, large doses of CP 1552-S appeared to result in paradoxical post-afterdischarge and possibly prestimulation electrical seizure activity.     

Caffeine modification of kindled amygdaloid seizures

Rats were kindled during exposure to caffeine (50 mg/kg) or saline given IP twenty minutes before daily electrical stimulation of the amygdala until 3 kindled amygdaloid seizures (KAS) occured. They were then stimulated for 3 days without drug pretreatment followed by 5 additional days with drug pretreatment. There were no significant differences between the two groups in the number of daily stimulations or in the total seconds of cumulative afterdischarge (AD) needed to reach the first KAS. During kindling, the daily average AD tended to be longer in the caffeine treated group. This difference became significant (>200% saline) when the KAS was reached. When KAS animals were stimulated without caffeine pretreatment, the average AD returned to control lengths. When put back on caffeine pretreatment, the average AD was again increased. Caffeine (6–50 mg/kg, IP) was also evaluated in previously kindled rats using suprathreshold (400 μAMP) and threshold (20 μA increments) seizures. Caffeine had no consistent effect on threshold values. However, 12–50 mg/kg of caffeine increased seizure severity and AD durations after threshold stimulation. With suprathreshold stimulation, the length of the AD was significantly increased only after the highest dose of caffeine. It would appear that caffeine lengthens induced afterdischarges both during the acquisition phase of kindling and in the fully kindled subject. Caffeine does not appear to lower seizure thresholds or increase the rate of aquisition of the KAS in the doses tested in this model. It is postulated that caffeine may modify the KAS through an inhibition of the mechanisms which terminate the elicited AD.     

The effect of exogenous GM1 ganglioside on kindled-amygdaloid seizures

The effects of 12 daily doses of 30 mg/kg GM1 ganglioside i.p. on the acquisition of kindled-amygdaloid seizures in the rat was studied. No modification in the rate of kindling or the expression of the elicited seizures was noted during the acquisition phase. Further studies with additional fully amygdaloid kindled rats failed to show significant modification of suprathreshold or threshold elicited seizures after single 30-60 mg/kg i.p. doses of GM1 ganglioside. Despite previous studies which have shown antibodies to GM1 ganglioside to be convulsive, no anticonvulsant activity was demonstrated in this study with exogenous GM1 ganglioside using a battery of kindled-amygdaloid seizure tests in the rat.     

The effects of pentylenetetrazol, bicuculline and strychnine on the development of kindled seizures

Modification of the rate of acquisition of the kindled amygdaloid seizure by the convulsants pentylenetetrazol, bicuculline and strychnine was studied. Injections of saline, 25 mg/kg of pentylenetetrazol, 2 mg/kg of bicuculline or 1 mg/kg of strychnine were given 15 min prior to the daily electrical stimulation of the amygdala. The drug doses selected were capable of producing some behavioral and electrical epileptoid activity prior to stimulation without inducing generalized seizures. To determine whether pentylenetetrazol or bicuculline accelerated the rate of development of the kindled amygdaloid seizure or merely augmented the expression of each seizure, a crossover design was implemented. The crossover studies involved switching animals during the acquisition phase (between stimulations 3–6) from prestimulation saline to drug or drug to saline injections. It was found that pentylenetetrazol markedly augmented the expression of seizures during kindling development but the results of the crossover studies showed a less dramatic acceleration in the actual rate of the development of the fully generalized kindled amygdaloid seizure. The bicuculline-treated animals showed little augmentation in the expression of seizures during the kindling acquisition phase and in the actual rate of development of the kindled amygdaloid seizure. The strychnine treated animals showed no augmentation in expression of the seizures nor in the rate of development. The effects of prestimulation injections of bicuculline (1, 2 and 3 mg/kg) and strychnine (0.5, 1 and 2 mg/kg) on fully developed kindled amygdaloid seizures were also evaluated. Pretreatment with bicuculline minimally increased seizure afterdischarge duration at the highest dose. When fully kindled animals were pretreated with strychnine, a paradoxical decrease in afterdischarge length and an increase in severity (tonic hindlimb extension) was seen with the largest dose tested. This study emphasizes the potential importance of crossover studies in evaluating pharmacological manipulations of the rate of acquisition of the kindled seizure.     

Comparison of the anticonvulsant effects of two novel GABA uptake inhibitors and diazepam in amygdaloid kindled rats

Summary Two novel, specific inhibitors of GABA uptake, namely SKF 89976-A (N-[4,4-diphenyl-3-butenyl]-nipecotic acid) and SKF 100330-A (N-[4,4-diphenyl-3-butenyl]-guvacine) were tested for anticonvulsant effects in amygdaloid kindled female rats. The anticonvulsant effectiveness of the compounds was compared with that of diazepam. SKF 89976-A and SKF 100330-A produced dosedependent anticonvulsant effects on all seizure parameters measured in fully kindled rats, i.e. they inhibited seizure severity, increased seizure latency, and decreased the duration of motor seizures and EEG afterdischarges. ED 50s for inhibition of seizure severity were 4.6 and 15.1 mg/kg (0.014 and 0.045 mmol/kg) i.p. for SKF 100330-A and SKF 89976-A, respectively. For comparison, the ED 50 of diazepam was 1.9 mg/kg (0.0067 mmol/kg) i.p. Observation of behaviour indicated that the novel GABA uptake blockers exerted no side-effects in anticonvulsant doses, whereas diazepam produced sedative effects at all active dosage levels. The data demonstrate that SKF 100330-A and SKF 89976-A are potent, non-sedative anticonvulsant drugs in the kindling model of epilepsy, and these compounds thus may deserve interest as potential antiepileptic drugs with a very selective mechanism of action.     

Lifetime lead intoxication: influence on the amygdaloid kindling model of epileptogenesis

The nature of amygdaloid kindled seizures was studied in adult rats which were intoxicated with lead starting in neonatal life. Lactating females were exposed to lead via the drinking water (0.25% lead acetate) and the litters were continued on this level of lead after weaning at 27 days of age. When compared to controls, levels of lead in the blood and brain were significantly higher in lead-exposed rats, both at the time of weaning as well as postkindling, beyond 150 days of age. Parameters relating to amygdaloid kindled seizures, including the rate of kindling, seizure latency and seizure threshold were not significantly different in lead-treated rats than in controls. However, duration of behavioral seizures and afterdischarges was significantly longer in rats exposed to lead. Our data suggest that, although lead intoxication starting in neonatal life does not appear to affect the susceptibility to development of amygdaloid kindled seizures, it may enhance seizure severity in this model of epileptogenesis.     

Development of tolerance to clobazam in fully kindled rats: Effects of intermittent flumazenil administration

The effects of acute and chronic treatment with the 1,5-benzodiazepine, clobazam, were studied on fully kindled amygdaloid seizures in rats. After acute dosing, clobazam significantly reduced all parameters of kindled seizures (seizures severity, seizure duration, duration of amygdalar afterdischarges) at doses of 7.5 or 10 mg/kg i.p. ‘Active’ plasma concentrations of clobazam ranged between 300–800 ng/ml. The elimination half-life of clobazam in plasma was about 1 h. Only very low (10–75 ng/ml) levels of the major metabolite, N-desmethylclobazam, were detected in rats. Administration of N-desmethylclobazam indicated that plasma concentrations of at least 300 ng/ml were necessary for anticonvulsant effects. During chronic administration of clobazam, 10 mg/kg 3 times daily, marked tolerance developed to the anticonvulsant and adverse (ataxiogenic and sedative) effects of the benzodiazepine. The experiment was repeated using a different protocol with minimized environmental stimuli and no amygdala stimulation during chronic clobazam administration. The loss of effects on seizure severity and motor function was similar to the first chronic experiment, whereas the loss of effects on seizure and afterdischarge duration was less marked. This indicates that conditioning of ‘learned tolerance’ is partly involved in clobazam tolerance in kindled rats. Intermittent injection of the benzodiazepine receptor antagonist, flumazenil, 5 mg/kg i.p. every third day, did not alter the loss of pharmacodynamic effects during chronic treatment with clobazam, but seemed to prevent hyperexcitation and other abstinence symptoms in the withdrawal period. The data indicate that periodic injection of a benzodiazepine receptor antagonist does not represent a possible therapeutic approach for preventing the development of tolerance during long-term benzodiazepine exposure.     

Pharmacological modification of amygdaloid-kindled seizures

The acute effect of several antiepileptic drugs on amygdaloid-kindled seizures was investigated in rats. Phenobarbital, diazepam and trimethadione produced a dose-dependent decrease in severity and amygdaloid afterdischarge duration (ADD) of full kindled seizures. In contrast, phenytoin did not suppress kindled seizures but appeared to increase seizure severity and ADD, suggesting that its action is fundamentally different from that of the other antiepileptic agents. The general anesthetic, ketamine, was weakly effective in abolishing established kindled seizures but had a marked ability to prevent kindling when given prophylactically from the outset of amygdaloid stimulation. The anti-kindling action of ketamine may be related to its ability to enhance central noradrenergic mechanisms.     

The anticonvulsant effects of diazepam and phenobarbital in prekindled and kindled seizures in rats

The effects of various doses of diazepam (0.5–4 mg/kg) and phenobarbital (7.5–60 mg/kg) were determined on prekindled and kindled amygdaloid seizures in the same rats. Diazepam was ineffective against the prekindled focal seizures, but demonstrated profound and statistically significant control of the kindled seizures. In the kindled state, diazepam reduced the afterdischarge duration and seizure rank score to prekindled levels. Only the largest sedating dose of phenobarbital produced a reduction of both prekindled afterdischarge duration and seizure rank score. Against the kindled seizure, phenobarbital showed a marked and statistically significant increase in effectiveness in all but the smallest dose tested. The afterdischarge duration of kindled seizures was reduced to prekindled levels by 15–60 mg/kg of phenobarbital, while seizure rank score was reduced to prekindled levels by 30 and 60 mg/kg phenobarbital. The effects of two doses of diazepam (0.5 and 2.5 mg/kg) and phenobarbital (7.5 and 30 mg/kg) were tested against prekindled and kindled pentylenetetrazol (PTZ)-induced seizures. Preliminary work with 3 doses of pentylenetetrazol (30, 40 and 60 mg/kg) demonstrated that repeated doses of 30 mg/kg readily kindled seizures without the significant mortality seen with larger doses. Both diazepam and phenobarbital were less effective against seizures kindled with 30 mg/kg pentylenetetrazol compared to prekindled seizures. The comparative lack of effect that was seen with diazepam and phenobarbital against the pentylenetetrazol kindled seizure at doses associated with control of the kindled amygdaloid seizure may reflect an underlying difference in the pathogenesis of kindling between these seizure models. Further, the lack of suppression of the prekindled amygdaloid afterdischarge duration by large doses of diazepam, in contrast to large doses of phenobarbital, may also reflect differences between the mechanisms of action of these two drugs. This paradigm provides a model for testing the effectiveness of anticonvulsants during the progressive development of various epileptogenic seizures.     

Regional brain concentrations of cholecystokinin in the rat: the effects of kindled and non-kindled seizures

In an attempt to understand the neurochemical basis of kindling, this study investigated the effects on brain cholecystokinin (CCK) of amygdaloid kindled and non-kindled seizures. Thirteen brain regions were examined in rats sacrificed either 24 hr or 3 weeks after the last kindled seizure, or 24 hr after a suprathreshold stimulation-induced (non-kindled) seizure; and in sham kindled rats. There were no significant differences in CCK immunoreactivity between any of these groups. These results do not confirm a previous report of an increase in CCK in the hippocampus following amygdaloid kindling in the rat.     

Phenytoin’s effect on the spread of seizure activity in the amygdala kindling model

Phenytoin is a major antiepileptic drug for treatment of limbic seizures. The effect of phenytoin on the generation and spread of seizure activity was studied in a rat model of this type of seizures. Sprague-Dawley and Wistar rats were implanted with a stimulation and recording electrode in the basolateral amygdala. Naive Sprague-Dawley rats showed an increase in current intensity necessary for eliciting afterdischarges (afterdischarge threshold) of about 200% after administration of phenytoin (75 mg/kg i.p.), while seizure severity at threshold was increased compared to controls. Afterdischarge and seizure durations were significantly prolonged under phenytoin. This result suggests that phenytoin can exert a potent anticonvulsant effect on the generation of focal seizure activity, but it does not suppress or may even increase on-going afterdischarge activity once it occurs. Following amygdala kindling in Wistar rats, administration of phenytoin again resulted in an increase in the afterdischarge threshold. However, all rats still showed generalized seizures, and epileptic afterdischarges could be recorded in various limbic brain regions at threshold current. This result suggests that phenytoin can increase the threshold for generation of epileptic discharges in kindled rats, but is not able to prevent the development of generalized seizure activity and the spread of afterdischarges within the limbic system when focal activity is initiated. We conclude that phenytoin is able to suppress focal seizure activity in the amygdala kindling model of the rat. However, it does not prevent the spread of seizure activity originating in the limbic system. Therefore, a decrease in focal seizure susceptibility seems to be the primary target for phenytoin’s anticonvulsant action. Received: 7 March 1997 / Accepted: 17 June 1997     

The effects of various anesthetics on amygdaloid kindled seizures

The effects of various doses of cataleptic anesthetics, gamma-butyrolactone (GBL), phencyclidine (PCP), and ketamine (KET), and the depressant anesthetics, pentobarbital (PB) and chloral hydrate (CH), on amygdaloid kindled seizures were tested in the rat. The seizure activity was monitored by behavioral observation and EEG recording. Anesthetic doses of the cataleptic anesthetics with the exception of KET had minimal effects on the afterdischarge duration (AD) and behavioral ranking (BR) of the elicited seizures. On the other hand, they were more inhibitory to the AD and BR than was the convulsant pentylenetetrazol (PTZ). The only cataleptic that induced spontaneous seizure activity at anesthetic doses was PCP, although KET induced epileptoid activity at supranesthetic doses. Ketamine, PB, and CH completely inhibited elicited seizure activity at anesthetic doses. In addition, rats were kindled by repetitive electrical stimulation during GBL-induced anesthesia or catalepsy. Although both these GBL groups averaged more stimulations to reach generalized seizures than the saline controls, GBL did not block the kindling process.     

The anticonvulsant effects of diazepam and phenobarbital in prek1ndled and kindled cortical seizures

The effects of various doses of diazepam (0.5–4 mg/kg) and phenobarbital (15–60 mg/kg) were determined on prekindled (focal) and kindled (generalized) cortical seizures in the same rats. Only high sedating doses of diazepam or phenobarbital reduced the elicited afterdischarge duration (ADD) and behavioral response in the prekindled focal cortical seizure. Against the kindled seizure, both diazepam and phenobarbital showed a marked and statistically significant increase in effectiveness in all but the smallest doses tested. The ADD of the kindled cortical seizures was reduced to prekindled lengths by diazepam (1–4 mg/kg) or phenobarbital (30–60 mg/kg). The increased anticonvulsant effectiveness found in this study is similar to previous findings with diazepam and phenobarbital against prekindled and kindled amygdaloid seizures, but stands in contrast to findings with prekindled and kindled pentylenetetrazol seizures.     

Stimulation-Dependent Effect of Antiepileptic Drugs in Amygdala Kindled Rats on Both Seizure Score and Duration of Afterdischarges

Abstract: The ED₅₀ for abolition of generalized seizures and reduction of afterdischarges to 20% of the control duration was determined in kindled rats for phenobarbital, carbamazepine, phenytoin, valproic acid, clonazepam, and diazepam, both at a stimulation intensity of 200 μA and at 10 μA above the threshold for generalized seizures (threshold stimulation). Phenobarbital, carbamazepine, and valproic acid acted in a stimulus-dependent manner, i.e. the ED₅₀ was higher at 200 μA than at threshold stimulation. Phenytoin had the same ED₅₀ irrespective of the stimulus intensity. Generalized seizures and afterdischarges were suppressed by the same doses of the drugs mentioned. The benzodiazepines, clonazepam and diazepam, had a differential effect: they suppressed generalized seizures at low doses, whereas afterdischarges were only suppressed incompletely at relatively high doses. The ED₅₀ of both benzodiazepines was independent of stimulus intensity. In order to avoid erroneous conclusions a standardization of kindling parameters, especially stimulation intensity, is proposed when drug effects are to be compared.     

The effects of LY-201116 [4-amino-N-(2,6-dimethylphenyl) benzamide] on the amygdala-kindled rat

The effects of LY-201116, a 4-aminobenzamide, were examined in rats using the amygdala kindling model, both during acquisition of the kindled response and in fully kindled animals. Dose-response and time-response studies for efficacy and rotorod toxicity were completed following intraperitoneal injection of the drug. Afterdischarge duration, behavioral seizure response, kindled seizure threshold and EEG recordings were used to assess efficacy and toxicity of the drug. In the acquisition trial, the drug (7.5 mg/Kg) did not significantly alter the number of stimulations required to produce the first stage 5 kindled response nor did it modify afterdischarge durations. Doses of 11.25 and 15 mg/Kg suppressed afterdischarge and diminished behavioral responses significantly in fully kindled rats, but these doses were also neurotoxic as judged by rotorod performance. The non-selective anticonvulsant effect of 11.25 mg/Kg lasted at least 90 min. A dose of 15 mg/Kg raised kindled seizure threshold and diminished afterdischarge duration. Doses of 20, 30 and 40 mg/Kg produced spontaneous EEG spikes and seizures accompanied by behavioral convulsions. The drug thus exhibited non-selective anticonvulsant effects in fully kindled rats following doses of 11.25 or 15 mg/Kg, but exhibited proconvulsant activity following doses in the range of 20-40 mg/Kg.     

Anticonvulsant and proconvulsant effects of inhibitors of GABA degradation in the amygdala-kindling model

The effects of three drugs, namely gamma-vinyl GABA (vigabatrin), gamma-acetylenic GABA, and aminooxyacetic acid, which increase brain GABA concentrations by irreversible inhibition of GABA degradation, were studied in amygdala-kindled rats. Vigabatrin 800 or 1,200 mg/kg i.p. 4 h after its administration, caused prolongation of behavioural seizures and electrographic afterdischarges recorded from the stimulated amygdala. One to three days after administration it dose dependently reduced seizure severity, seizure duration and afterdischarge duration in most animals. Determination of GABA levels in synaptosomes isolated from 12 brain regions of kindled rats 4 or 48 h after injection of 1,200 mg/kg vigabatrin indicated that the variable effects of this drug at different times after its administration could be related to differences in the time course of nerve terminal GABA increases in selective brain regions such as amygdala and corpus striatum. In contrast to vigabatrin, gamma-acetylenic GABA, 100 mg/kg i.p., reduced seizure severity in kindled rats as early as 4 h after its administration but afterdischarge duration increased significantly on subsequent days. Similar late increases in afterdischarge duration (and limbic seizure activity) after the time of maximum anticonvulsant effect had elapsed were also observed with vigabatrin, which could suggest that the anticonvulsant effect of such drugs is followed by withdrawal hyperexcitability. Aminooxyacetic acid, 20 mg/kg i.p., exerted no significant anticonvulsant effect in kindled rats but prolonged afterdischarge duration in several of the animals studied. The data suggest that GABA-T inhibitors, such as vigabatrin, differ from most antiepileptic drugs previously tested in the kindling model in that they may produce both anticonvulsant and proconvulsant effects at the same dose in the same animal as a function of time after administration.     

Effect of aminophylline on amygdaloid-kindled postictal inhibition

Previous studies have shown that methylxanthines such as aminophylline increase the clinical severity and length of electrically elicited limbic afterdischarges in naive and kindled rats without lowering seizure threshold. When fully amygdaloid-kindled rats are electrically stimulated at intertrial stimulation intervals of less than 60 minutes, significant residual inhibition can be demonstrated. The present study examines the effect of three doses of aminophylline (25, 50 and 100 mg/kg) on repeated daily stimulations of fully amygdaloid-kindled rats. After 100 mg/kg aminophylline, the first elicited amygdaloid-kindled seizure afterdischarge was doubled in length compared to saline controls. The second elicited seizure 15 minutes later resulted in status epilepticus and hindlimb extension in the majority of the aminophylline-treated animals with death occurring in 28%. When 25 or 50 mg/kg of aminophylline was given daily for five days before the first of five daily stimulation trials, each separated by 15 minutes, no significant reduction in postictal inhibition was demonstrated compared to saline controls. The 50 mg/kg aminophylline dose consistently and significantly lengthened only the first afterdischarge of each day without affecting the postictal inhibition seen with repeated stimulations. The neural substrate that governs immediate postictal inhibition of amygdaloid-kindled seizures appears to be resistant to modification by aminophylline at low doses. At high doses of aminophylline (100 mg/kg), sustained epileptical activity occurred. The sustained seizure activity seen at the high dose of aminophylline may be secondary to blockade of the processes which normally terminate seizure activity, or it may represent actual inhibition of the immediate postictal inhibitory processes.     

The new antiepileptic drugs lamotrigine and felbamate are effective in phenytoin-resistant kindled rats

We evaluated the anticonvulsant efficacy of the antiepileptic drugs (AEDs) lamotrigine (LTG) and felbamate (FBM) in amygdala kindled rats that had been preselected with respect to their response to phenytoin. Anticonvulsant response was tested by determining the afterdischarge threshold (ADT), i.e., a sensitive measure for drug effects on focal seizure activity. By repeated testing with the phenytoin prodrug fosphenytoin, 3 groups of kindled rats were separated: rats in which consistent anticonvulsant effects were obtained (phenytoin responders), rats which showed no anticonvulsant response (phenytoin nonresponders), and rats with variable responses (variable phenytoin responders). The latter, largest group was used to evaluate at which doses LTG and FBM exerted significant anticonvulsant effects on ADT 1 h after i.p. drug administration. Effective doses were then used for drug testing in phenytoin responders and nonresponders. Both LTG and FBM proved to be effective anticonvulsant drugs in the kindling model by markedly increasing the ADT. Seizure severity and duration recorded at ADT currents were hardly reduced, indicating that both drugs predominantly affect induction of focal seizures and not seizure spread from the focus. In phenytoin nonresponders, LTG and FBM significantly increased ADT, which is in line with their proven efficacy in patients with refractory partial epilepsy in whom phenytoin has failed. However, LTG and, more markedly, FBM were clearly more efficacious in increasing ADT in phenytoin responders than in nonresponders, substantiating that the difference in phenytoin response between these groups of kindled rats extends to other AEDs. The data in this study reveal that phenytoin nonresponders are a unique model for the search for new AEDs with improved efficacy in refractory partial epilepsy.     

Effect of cocaine and pentylenetetrazol on cortical kindling

The effect of drug-induced convulsions on subsequent cortical kindling was studied in male Long-Evans rats. Animals experienced three intravenous infusions of physiological saline at 3 day intervals, or three convulsions induced by the infusion of cocaine or pentylenetetrazol (PTZ). Beginning eight days after the last infusion, all animals were kindled by stimulation of the anterior neocortex (area 6). PTZ-induced convulsions facilitated the development of both the behavioral convulsion and the electrographic seizure during cortical kindling, while cocaine-induced convulsions facilitated only the development of the electrographic seizure. Comparison of these results with previous research indicates that convulsions induced by these two drugs have long-lasting effects on brain function which differ both in their anatomical distribution and in the nature of the effects produced. These drugs also differed in their acute effects at subconvulsant doses on the expression of cortically kindled seizures. Cocaine (and lidocaine, another local anesthetic) substantially elevated afterdischarge (AD) threshold and inhibited the focal component of the cortically kindled seizure. PTZ had no significant effect on either of these variables but significantly increased AD duration. In addition to these drug effects, a substantial inhibitory effect on seizure expression was observed, both during kindling and afterwards, when ADs were elicited daily but not when they were separated by 3 days or more. This finding suggests that the large number of ADs typically required for cortical kindling may be due in part to daily stimulation.     

Dose-dependent proconvulsant and anticonvulsant actions of the alpha 2 adrenergic agonist, xylazine, on kindled seizures in the rat

The effects of the alpha 2 adrenergic agonist, xylazine, was evaluated on kindling acquisition and on kindled seizure expression in rats. Dose-dependent proconvulsant and anticonvulsant properties were found. The proconvulsant effects were observed at low (0.3 mg/kg) doses. In previously kindled rats these consisted of a decrease in afterdischarge threshold and an increase in the length and severity of the accompanying seizure. This dose also facilitated the rate of kindling in naive subjects. The anticonvulsant effects were observed at higher dose levels (3-20 mg/kg) which also produced sedation and ataxia. If these effects upon kindling are related to the adrenergic actions of xylazine, then it is proposed that the proconvulsant effects are associated with alpha 2 receptor activation and the anticonvulsant effects with alpha 1 receptor activation.