A A Miller scite author profile

Lamotrigine (LTG) [3,5-diamino-6-(2,3-dichlorophenyl)-1,2,4-triazine] is a novel anticonvulsant chemically unrelated to current antiepileptic drugs and with a pharmacological profile similar to that of phenytoin. The effect of LTG has been compared with that of phenytoin, on the release of endogenous amino acids and radiolabelled acetylcholine evoked by veratrine or potassium, from slices of rat cerebral cortex in vitro. Both veratrine and potassium evoked a marked release of glutamate and gamma-aminobutyric acid (GABA), with a more moderate release of aspartate. LTG inhibited veratrine-evoked release of glutamate and aspartate, with ED50 values of 21 microM for both amino acids, but LTG was less potent in the inhibition of GABA release (ED50 = 44 microM). At concentrations up to 300 microM, LTG had no effect on potassium-evoked amino acid release or on spontaneous release. Also, LTG was some five times less potent in the inhibition of veratrine-evoked [3H]acetylcholine release (ED50 = 100 microM) than in glutamate or aspartate release. The total lack of effect of LTG on potassium-evoked release and the potent effect on veratrine-evoked release (at concentrations found in rat brain after anticonvulsant doses) strongly suggest that LTG acts at voltage-sensitive sodium channels to stabilise neuronal membranes and inhibit transmitter release, principally glutamate. The role of glutamate in the aetiology of epilepsy is discussed.

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Acute Effects of Lamotrigine (BW430C) in Persons With Epilepsy

Binnie

Boas

Kasteleijn‐Nolste‐Trenite

et al. 1986

Epilepsia

185

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Sixteen epileptic patients took single doses of lamotrigine, 120 mg or 240 mg. Six photosensitive patients showed reduction (with abolition in two) in photosensitivity after lamotrigine administration. Five subjects with frequent interictal spikes showed reduction in spike frequency over 24 h after lamotrigine administration. The half-life (t1/2) of lamotrigine in subjects taking sodium valproate was prolonged, whereas the t1/2 in subjects taking carbamazepine and/or phenytoin was reduced. The area under the curve of co-medication plasma levels was not affected by a single dose of lamotrigine. Five patients reported mild and generally transitory side effects; some of which represented exacerbation of preexisting complaints.

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Pharmacological Studies on Lamotrigine, A Novel Potential Antiepileptic Drug

et al. 1986

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Lamotrigine (LTG), 3,5-diamino-6-(2,3-dichlorophenyl)-1,2,4-triazine, is a structurally novel anticonvulsant. The anticonvulsant profile of LTG following oral administration in two standard anticonvulsant tests, the maximal electroshock (MES) test in mice and rats and the pentylenetetrazol (PTZ) infusion test in mice, was studied in comparison with the known anticonvulsant drugs phenytoin (PHT), phenobarbitone, diazepam, carbamazepine (CBZ), sodium valproate, ethosuximide (ETH), and troxidone (TROX). ED50 values for the abolition of hindlimb extension (HLE) in the MES test and PTZ infusion tests and doses increasing the latency of PTZ-evoked clonus were determined. The duration of action of LTG was examined in rats and mice in the MES test by determining ED50 values for the abolition of HLE at various drug intervals to shock administration. In the MES test, LTG was well absorbed in both species, with peak activity at 1 h and persistence at this level of potency for at least 8 h. Of the drugs examined, LTG was ranked the most potent and persistent in both species. LTG also abolished PTZ-evoked HLE, while ETH and TROX were inactive. Clonus latency was not increased by LTG, PHT, or CBZ, but was significantly increased (p less than 0.05) by the remaining anticonvulsants. Thus, LTG resembled PHT and CBZ in its ability to block HLE but not to increase PTZ-induced clonus latency. Acute behavioural studies in mice and rats have suggested a wide separation between anticonvulsant doses and those producing behavioural impairment. These results suggest that LTG may be of value in the treatment of generalised tonic-clonic and partial seizures.

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Cardiovascular and Neurological Effects of Laudanosine

Chapple

Miller

Ward

et al. 1987

British Journal of Anaesthesia

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The effects of laudanosine, a metabolite of atracurium, on the behaviour of conscious mice, rats and dogs, and on cardiovascular function in conscious and anaesthetized dogs have been evaluated: EEG studies were performed in anaesthetized dogs. In mice and rats, i.v. bolus doses of laudanosine 10-20 mg kg-1, caused convulsions and hind limb extensions; these effects were prevented by pretreatment with diazepam. After the continuous infusion of laudanosine to conscious dogs, plasma concentrations in the order of 1.2 micrograms ml-1 did not cause behavioural disturbances. In anaesthetized dogs, laudanosine plasma concentrations of more than 6 micrograms ml-1 caused hypotension and bradycardia, laudanosine concentrations greater than 10 micrograms ml-1 induced epileptic EEG spiking and plasma concentrations greater than 17 micrograms ml-1 produced prolonged seizures. There is a wide difference between laudanosine plasma concentrations in patients given atracurium by bolus injection or by short-term infusion for surgical use and those required to induce epileptic activity in dogs. However, during the prolonged infusion of atracurium to patients this difference will be decreased. It is unlikely that the use of atracurium, in patients, would result in plasma concentrations of laudanosine capable of producing neurological or cardiovascular disturbances.

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Effects of Lamotrigine on Electrically Induced Afterdischarge Duration in Anaesthetised Rat, Dog, and Marmoset

Wheatley

Miller

1989

Epilepsia

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The effects of lamotrigine (LTG), a novel potent anticonvulsant, following intravenous (i.v.) bolus injection were studied on the durations of electrically induced afterdischarges of the EEG in halothane-anaesthetised dogs and marmosets, species used in toxicity studies. For comparison, the effect of LTG on hippocampal afterdischarge duration was also studied in halothane anaesthetised rats, a species in which the anticonvulsant action of LTG has been widely investigated. The known anticonvulsants phenytoin (PHT) and phenobarbital (PB) were included for comparison. LTG reduced afterdischarge duration in a dose-dependent manner in rat and dog; it was approximately twofold more potent than PHT in the dog and three- to fourfold more potent than PB in both dog and rat (LTG ED50 values = 4.5 and 11.7 mg.kg-1 i.v. in dogs and rats, respectively). PHT was ineffective in the rat at sublethal doses (less than 40 mg.kg-1 i.v.). In limited studies in marmosets, i.v. administration of both LTG and PHT (both 5-15 mg.kg-1) reduced or abolished afterdischarge. Thus, LTG was a potent anticonvulsant in rat, dog, and marmoset in afterdischarge models of partial (focal) seizures and may be of utility in the treatment of partial seizures in humans.

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The effect of lamotrigine upon development of cortical kindled seizures in the rat

O'Donnell¹,

Miller²

1991

Neuropharmacology

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Effect of cortical kindling on [3H]d-aspartate uptake and glutamate metabolism in rats

et al. 1987

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Antagonism by Folic Acid of Presynaptic Inhibition in the Rat Cuneate Nucleus

Hill

Miller

1974

British J Pharmacology

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A A Miller

Pharmacological Studies on Lamotrigine, A Novel Potential Antiepileptic Drug

Acute Effects of Lamotrigine (BW430C) in Persons With Epilepsy

Pharmacological Studies on Lamotrigine, A Novel Potential Antiepileptic Drug

Cardiovascular and Neurological Effects of Laudanosine

Effects of Lamotrigine on Electrically Induced Afterdischarge Duration in Anaesthetised Rat, Dog, and Marmoset

The effect of lamotrigine upon development of cortical kindled seizures in the rat

Effect of cortical kindling on [3H]d-aspartate uptake and glutamate metabolism in rats

Antagonism by Folic Acid of Presynaptic Inhibition in the Rat Cuneate Nucleus

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