Ketamine and its combinations with valproate and carbamazepine are ineffective against convulsions induced by atropine treatment and food intake in fasted mice

Objective(s): Fasted rodents treated with antimuscarinics develop convulsions after refeeding. Food deprivation for 48 hr produces changes in [3H]glutamate binding suggesting glutamatergic contribution to the underlying mechanism of the seizures that are somewhat unresponsive to antiepileptics. Studies in animals and epileptic patients yielded considerable information regarding the anticonvulsant effect of the noncompetitive N-methyl-D-aspartate (NMDA) receptor antagonist ketamine. Thus, this study evaluated the efficacy of ketamine and its combinations with valproate and carbamazepine on convulsions in fasted animals.Materials and Methods: Following 24 hr of fasting, mice were given saline, 5 or 10 mg/kg ketamine, 250 mg/kg sodium valproate, 24 mg/kg carbamazepine, 5 mg/kg ketamine+sodium valproate, or 5 mg/kg ketamine+carbamazepine and then were treated with saline or 2.4 mg/kg atropine (5-9 mice per group). The animals were observed for the occurrence of convulsions after being allowed to eat ad libitum.Results: Ketamine, valproate and carbamazepine pretreatments were ineffective in preventing the convulsions developed after atropine treatment and food intake in fasted animals. The incidence of convulsions was significantly higher in 5 and 10 mg/kg ketamine, carbamazepine, and carbamazepine+ketamine groups, but not in the valproate and valproate+ketamine treated animals. Conclusion: In contrast to previous findings obtained with the NMDA antagonist dizocilpine (MK-801), ketamine lacks activity against convulsions developed after fasting. The drug does not enhance the efficacy of valproate and carbamazepine either. Using different doses of ketamine or other NMDA antagonists, further studies may better clarify the anticonvulsant effect of ketamine and/or role of glutamate in these seizures

Antimuscarinic-induced convulsions in fasted mice after food intake: no evidence of spontaneous seizures, behavioral changes or neuronal damage

Prolonged or repeated seizures have been shown to cause spontaneous recurrent seizures, increased anxiety-related behavior, locomotor hyperactivity, impaired functions of learning and memory, and neuronal damage in the hippocampus and other brain regions in animals. Mice and rats treated with antimuscarinic drugs after fasting for two days or less develop convulsions after being allowed to eat ad libitum. To address whether such behavioral and neuroanatomic changes occur following these convulsions, mice treated i.p. with saline (control) or 2.4 mg/kg atropine and given food after 24 h of fasting were grouped according to seizure scores for behavioral and histological analysis. Following convulsions, the occurrence of spontaneous recurrent seizures was observed for 30 days. Motor activity and grooming behavior were assessed in the open field, and memory was assessed using the novel object recognition test 4 and 7 days after onset of convulsions, respectively. Animals allocated for the histological analysis were decapitated 7 days after onset of convulsions and hippocampal slices were evaluated for the percentage of degenerating neurons stained with Fluoro-Jade C. Spontaneous recurrent seizures, locomotor alterations, anxiety-related behavior, memory impairment, and neuronal loss in the granular layer of the dentate gyrus were not detected in the animals with seizure score 1-2 or 3-5. These results are in accordance with those related to the absence of behavioral changes, cognitive deficits, and hippocampal neuronal damage after single brief seizures in animals and patients with epilepsy

The evaluation of antimuscarinic-induced convulsions in fasted rats after food intake

The present study was performed to evaluate convulsions after food intake in fasted rats pretreated with scopolamine or atropine and to determine whether these convulsions respond to drugs found effective in fasted mice. Scopolamine (2.4 mg/kg) and atropine (2.4 mg/kg) were given intraperitoneally (i.p.) to rats fasted for 52 h. Both drugs induced convulsions after animals were allowed to eat ad lib. Another group of fasted rats pretreated with saline, MK-801 (0.1 mg/kg), clonidine (0.1 mg/kg), chlorpromazine (2 and 4 mg/kg), valproate (200 mg/kg), diazepam (1.5 and 2 mg/kg) or gabapentin (50 mg/kg) were treated i.p. with saline or scopolamine (2.4 mg/kg) and were allowed to eat ad lib. Clonidine, MK-801, chlorpromazine (4 mg/kg) and diazepam (2 mg/kg) reduced the incidence of scopolamine-induced convulsions in fasted rats. Gabapentin could only prolong the onset of convulsions. Neither treatment was effective against myoclonus of hindlimbs. Present results showed that fasted rats also develop antimuscarinic-induced convulsions which do not completely respond to treatments found effective in convulsions of fasted mice. (c) 2006 Elsevier B.V. All rights reserved

Seizures triggered by food intake in antimuscarinic-treated fasted animals: Evaluation of the experimental findings in terms of similarities to eating-triggered epilepsy

P>Food intake triggers convulsions in fasted mice and rats treated with antimuscarinic drugs, scopolamine or atropine. Bearing some similarities in triggering factor and manifestations of the seizures in patients with eating-evoked epilepsy, seizures in fasted animals may provide insight into the mechanism(s) of this rare and partially controlled form of reflex epilepsy

The importance of the number of NMDA receptors in the development of supersensitivity or tolerance to and dependence on morphine

Opiate or NMDA receptor antagonists given during and/or after the development of tolerance and dependence have been reported to prevent these developments. In the present study, MK801 (dizolcipine) and naltrexone (NX), two antagonists of NMDA and opiate receptors, respectively were used in rats to find any correlations between changes in NMDA receptor kinetics, and the intensity of tolerance and dependence. Thus, six different groups of rats were formed. The rats in the groups were given saline (S) + S, S + morphine (M), NX + S, NX + M, MK801 + S and MK801 + M, respectively, once per day for 8 days. On day 9, the rats from each group were divided into four subgroups. The rats of the first subgroup were subjected to the determination of tail-flick latency. The rats of the second subgroup were administered 1 mg kg(-1) naloxone (NL) 2 h after administration of 3 mg kg(-1) M. The rats of the third subgroup were implanted with two M pellets and after 72 h they were challenged with NL. The remaining rats received drugs also on day 9 according to the previous administration paradigm. Two hours after the administrations, their brains were utilised for the determination of NMDA receptor kinetics, employing [H-3]glutamate. The measurement of tail-flick latency showed the prevention by NX or MK801 of the development of tolerance to M. The rats, which were administered 3 mg kg(-1) M 2 h before 1 mg kg(-1) NL injection, on day 9 showed that only NX given previously along with M attenuated the intensity of the development of M dependence. NX administered alone intensified the development of dependence on a single dose of M. The development of M dependence upon the M pellet implantation was intensified by the previous administration of NX or MK801 concomitantly with M. The administration of M or MK801 alone, or NX together with M, caused significant upregulation of NMDA receptors. NX alone, and MK801 given concurrently with M led to a significant downregulation. So, in light of the previous findings and the present experimental data it can be said that: (1) supersensitivity to opioids may be a downregulation of NMDA as well as an upregulation of the opioid receptor; (2) either upregulation or downregulation of NMDA receptors may facilitate subsequent development of opioid dependence; (3) tolerance to opioid may necessitate both upregulation of NMDA receptors and downregulation of opioid receptors; and (4) beneficial effects of opioid antagonists in the treatment of opiate dependence and CNS injuries may be strongly related to the down regulation of NMDA receptors. (C) 1999 Academic Press

Effects of resveratrol, catechin and epicatechin on rat phrenic nerve hemi-diaphragm

Aim: Resveratrol, catechin and epicatechin are known for their preventive effects of skeletal muscle atrophy, anti-fatique effects and enhancement of exercise capacity. In this study, we investigate the effects these antioxidants on muscle contraction by using rat phrenic nerve hemi-diaphragm preparations. Methods: Twitch responses are investigated by giving direct and indirect and tetanic stimulation to rat phrenic nerve hemi-diaphragm preparations. Results: Resveratrol and catechin facilitated twitch responses to the indirect stimulus in short duration and suppressed in long duration. The decrease in the responses to the direct stimulation by applying epicatechin (p=0.010) was significantly higher than the responses by giving indirect stimulation. Epicatechin significantly suppressed tetanic responses (p=0.005), but not resveratrol and catechin. Conclusion: The results of the study show that these antioxidants have presynaptic and postsynaptic effects on neuromuscular junction. Resveratrol effective on muscle contraction via direct stimulus, catechin and epicatechin effects muscle contraction by direct and indirect stimulus

Scopolamine-induced convulsions in fasted mice after food intake: determination of blood glucose levels, [H-3]glutamate binding kinetics and antidopaminergic drug effects

The present study was performed to evaluate the role(s) of hypoglycemia, changes in [H-3]glutamate binding kinetics and dopaminergic activity in the occurrence of scopolamine-induced convulsions in fasted mice after food intake, Plasma glucose levels and density (B-max) and affinity (K-d) of [H-3]glutamate binding sites in whole brain synaptic membranes were determined in animals fed ad lib or fasted for 48 h and treated intraperitoneally (i.p.) with 3 mg/kg scopolamine or saline and allowed to eat for 5 min. Fasting for 48 h decreased plasma glucose levels. After refeeding, plasma glucose concentrations increased in saline treated animals, but remained unchanged in scopolamine treated animals which consumed less food. Fasting for 48 h also produced significant changes in the kinetics of [H-3]glutamate binding. The B-max and K-d of the binding sites decreased in fasted animals. These changes were partially antagonized by scopolamine treatment and food intake. For the evaluation of the contribution of dopaminergic activity, another group of mice fasted for 48 h and pretreated (i.p.) with saline or dopamine antagonists, 2 mg/kg chlorpromazine or 2 or 4 mg/kg haloperidol. were treated 10 min later with either saline or 3 mg/kg scopolamine. Then 20 min later, they were allowed to eat ad lib and were observed for 30 min for the incidence and onset of clonic convulsions. Pretreatment of both 2 mg/kg chlorpromazine and 4 mg/kg haloperidol markedly suppressed the convulsions. These results indicate that the decrease in the [H-3]glutamate binding induced by fasting. its antagonism by scopolamine treatment and food intake, and the dopaminergic hyperactivity may be possible factors contributing to the occurrence of convulsions. (C) 2003 Elsevier Science Ltd. All rights reserved