Non-convulsive status epilepticus induced by tiagabine in a patient with pseudoseizure

Tiagabine, a novel GABA reuptake inhibitor, has been reported to induce non-convulsive status epilepticus (NCSE) in patients with epilepsy. We report a 27 year old female with history of pseudoseizure documented by video-EEG monitoring who presented confusion while on 56 mg per day of tiagabine. Electroencephalography showed generalized sharp and slow wave discharges, consistent with NCSE. The NCSE was terminated by lorazepam and did not recur after tiagabine was discontinued. This case report suggests that tiagabine may induce NCSE in patients without epilepsy.

Treatment of alcohol withdrawal with gabapentin

Gabapentin is an anticonvulsant agent, also effective in the treatment of mood disorders and anxiety disorders. Three cases of alcohol withdrawal treated with gabapentin are presented. All patients received gabapentin 400 mg tid for 3 days, 400 mg bid for 1 day, and finally 400 mg for 1 day. Withdrawal symptoms subsided and no adverse effects were observed. The possible effectiveness of gabapentin in the treatment of alcohol withdrawal warrants further investigation by systematic and well-designed studies.

Clinical relevance and treatment possibilities of bipolar rapid cycling

Bipolar rapid cycling (RC) is defined as 4 or more affective episodes within 1 year. It has been postulated that RC is related to a poor response to lithium, to the same extent as mixed episodes or other atypical symptoms of the illness. This article reviews the current status of alternative pharmacological or otherwise supportive therapies of RC. Biological parameters and characteristics of the illness associated with RC like gender prevalence in women, hyperthyroidism, catecholamine-O-methyltransferase allele, the influence of sleep, different subtypes of bipolar disorder and the risk of antidepressant-induced cycling will be discussed in detail.

Rapid cycling bipolar disease: new concepts and treatments

Having been recognized by Kraeplin at the beginning of the 20th century, rapid cycling was first described as a specific entity by Dunner et al. in 1974. The prevalence of rapid cycling ranges from 12% to 20% in patients with bipolar disorder who are not selected for a high rate of cycling.

The acute effect of valproate on cerebral energy metabolism in mice

Sodium valproate (VPA) is used in the acute treatment of status epilepticus and mania. We studied the acute effect of VPA on cerebral energy metabolism in awake mice that received VPA 400 mg kg(-1) and [1-(13)C]glucose or [2-(13)C]acetate. At 25 min, (13)C NMR spectroscopy of brain extracts indicated inhibition of the tricarboxylic acid (TCA) cycle, as could be seen from the accumulation of [4-(13)C]glutamate and reduction in [(13)C]aspartate formation. Concomitantly, the level of ATP was reduced by 40%. To identify the enzymatic step at which the TCA cycle was inhibited [U-(14)C]alpha-ketoglutarate was injected intracerebrally. Inhibition of alpha-ketoglutarate dehydrogenase was evident at 25 min, as shown by accumulation of [(14)C]glutamate. At 45 min the inhibition of alpha-ketoglutarate dehydrogenase was reversed, shown by both (13)C- and (14)C-labeling, and the ATP level was normalized. The study shows for the first time that acute administration of VPA causes inhibition of the TCA cycle activity in vivo. The reduction in brain ATP would be expected to reduce neuronal excitability through modulation of sodium channels which may be clinically advantageous in the initial phase of VPA treatment.

Clinical correlates of therapeutic response in bipolar disorder

Interest in the factors associated with responsiveness to therapy in bipolar disorder has increased with evidence that lithium has differential rather than uniform effectiveness in bipolar disorder, and also with the broadening of therapeutic options, illustrated especially by the use of divalproex sodium (valproate). Lithium is effective acutely in patients with pure or elated mania, and in its prophylaxis, but may worsen depressive symptoms in such patients when used for long-term maintenance therapy. The nature of previous responses to lithium treatment predicts the type of response that can be expected during a further episode of the disorder. Mixed mania, secondary mania, and mania associated with substance abuse--as well as rapid cycling --generally respond poorly to lithium therapy. Divalproex sodium has a broader spectrum of efficacy and fewer factors that determine differential responsiveness. Data related to treatment with carbamazepine are sparse, but patients with rapid cycling may respond less well to this agent; on the other hand, limited data support the utility of carbamazepine in bipolar patients with extreme psychosis, including those with mood-incongruent features. Both classical and atypical neuroleptics (e.g. olanzapine) could profitably be used in acute mania and mixed states. Lamotrigine has recently been shown effective in bipolar depression and rapid cycling. Patients unresponsive to a single agent may show improvement with combined regimens, though this impression is based more on clinical experience than controlled randomized assignment.

The Stanley Foundation Bipolar Treatment Outcome Network. I. Longitudinal methodology

The NIMH-Stanley Foundation Bipolar Treatment Outcome Network, a multisite clinical trials network, has been established to address many of the neglected areas of research in bipolar illness. The Network was designed so that it would be able to conduct randomized clinical trials at several different levels of methodologic rigor (blinded and open-label) both in academic and community practice settings in order to better assess long-term efficacy of existing treatments and develop new ones. In this fashion, large numbers of representative patients with bipolar disorder have been enrolled with an additional focus of elucidating possible clinical and biological predictors of treatment response. The unique focus of the Network is its systematic longitudinal approach to illness so that patients can be assessed comprehensively over the long-term in sequential randomized clinical trials at critical clinical decision points where data on relative efficacy are inadequate. Bipolar I and bipolar II patients with a range of illness variants and comorbidities are included. Daily prospective ratings of severity of mania and depression and associated degree of functional impairment are completed on the NIMH-Life Chart Method and a modified Clinical Global Impressions Scale for Bipolar Illness (CGI-BP) is utilized. More detailed cross-sectional ratings for depression (Inventory of Depressive Symptomatology), mania (Young Mania Rating Scale), and psychosis (Positive and Negative Syndrome Scale) are additionally used at academic centers. This article describes the rationale for the Network, its guiding principles, methods, and study design to systematically assess the highly variable course of bipolar illness and its response to current and future treatments.

Prefrontal cortex, negative symptoms, and schizophrenia: an MRI study

The present study measured prefrontal cortical gray and white matter volume in chronic, male schizophrenic subjects who were characterized by a higher proportion of mixed or negative symptoms than previous patients that we have evaluated. Seventeen chronic male schizophrenic subjects and 17 male control subjects were matched on age and handedness. Regions of interest (ROI) were measured using high-resolution magnetic resonance (MR) acquisitions consisting of contiguous 1.5-mm slices of the entire brain. No significant differences were found between schizophrenic and control subjects in mean values for prefrontal gray matter volume in either hemisphere. However, right prefrontal white matter was significantly reduced in the schizophrenic group. In addition, right prefrontal gray matter volume was significantly correlated with right hippocampal volume in the schizophrenic, but not in the control group. Furthermore, an analysis in which the current data were combined with those from a previous study showed that schizophrenic subjects with high negative symptom scores had significantly smaller bilateral white matter volumes than those with low negative symptom scores. White matter was significantly reduced in the right hemisphere in this group of schizophrenic subjects. Prefrontal volumes were also associated with negative symptom severity and with volumes of medial-temporal lobe regions - two results that were also found previously in schizophrenic subjects with mostly positive symptoms. These results underscore the importance of temporal-prefrontal pathways in the symptomatology of schizophrenia, and they suggest an association between prefrontal abnormalities and negative symptoms.

Effect of antidepressants on ATP-dependent calcium uptake by neuronal endoplasmic reticulum

This study investigated the effect of tricyclic and atypical antidepressants on adenosine triphosphate (ATP) dependent calcium uptake by the endoplasmic reticulum of lysed synaptosomes from rat brain cortex. Tricyclic antidepressants (imipramine, desipramine, clomipramine, amitriptyline) exhibited no effect in the lower range (0.06 to 2 µM) of drug concentrations, and a concentration-dependent inhibition of calcium uptake in the upper range (6 to 200 µM). A concentration-dependent inhibition was observed for atypical antidepressants (mianserin, desmethylmianserin, venlafaxine, desmethylvenlafaxine, fluoxetine) in both the lower and the upper range of drug concentrations. Since no stimulation of calcium uptake was observed in either concentration range, it appears that the tricyclic and atypical antidepressants tested are not capable of normalizing, through their effect on the endoplasmic reticulum, an overactive calcium signal, which is possibly implicated in the etiology of affective disorders. Also, although only marginal inhibition of calcium uptake is expected at brain concentrations of tricyclics and mianserin–desmethylmianserin that are likely to be encountered during clinical use, a more substantial inhibition could occur with fluoxetine.Key words: adenosine triphosphate-dependent calcium uptake, neuronal endoplasmic reticulum, lysed brain synaptosomes, tricyclic antidepressants, atypical antidepressants.

Effect of lamotrigine on the Ca(2+)-sensing cation current in cultured hippocampal neurons

Concentrations of extracellular calcium ([Ca(2+)](e)) in the CNS decrease substantially during seizure activity. We have demonstrated previously that decreases in [Ca(2+)](e) activate a novel calcium-sensing nonselective cation (csNSC) channel in hippocampal neurons. Activation of csNSC channels is responsible for a sustained membrane depolarization and increased neuronal excitability. Our study has suggested that the csNSC channel is likely involved in generating and maintaining seizure activities. In the present study, the effects of anti-epileptic agent lamotrigine (LTG) on csNSC channels were studied in cultured mouse hippocampal neurons using patch-clamp techniques. At a holding potential of -60 mV, a slow inward current through csNSC channels was activated by a step reduction of [Ca(2+)](e) from 1.5 to 0.2 mM. LTG decreased the amplitude of csNSC currents dose dependently with an IC(50) of 171 +/- 25.8 (SE) microM. The effect of LTG was independent of membrane potential. In the presence of 300 microM LTG, the amplitude of csNSC current was decreased by 31 +/- 3% at -60 mV and 29 +/- 2.9% at +40 mV (P > 0.05). LTG depressed csNSC current without affecting the potency of Ca(2+) block of the current (IC(50) for Ca(2+) block of csNSC currents in the absence of LTG: 145 +/- 18 microM; in the presence of 300 microM LTG: 136 +/- 10 microM. n = 5, P > 0.05). In current-clamp recordings, activation of csNSC channel by reducing the [Ca(2+)](e) caused a sustained membrane depolarization and an increase in the frequency of spontaneous firing of action potentials. LTG (300 microM) significantly inhibited csNSC channel-mediated membrane depolarization and the excitation of neurons. Fura-2 ratiometric Ca(2+) imaging experiment showed that LTG also inhibited the increase in intracellular Ca(2+) concentration induced by csNSC channel activation. The effect of LTG on csNSC channels may partially contribute to its broad spectrum of anti-epileptic actions.

Loading strategies in acute mania

Treatment of acute mania has been greatly influenced by loading strategies. Loading has potential benefits, including rapid symptom reduction in mania and a shortened length of stay. Disadvantages include an increased likelihood of adverse effects of the medications. Loading strategies for lithium, valproic acid (divalproex sodium), carbamazepine, oxcarbazepine, olanzapine, and haloperidol decanoate in the treatment of acute mania are discussed. Recent studies highlight this treatment option for selected patients. It is the unique properties of the medications that influence their use in loading. Issues in patient selection for loading strategies with each medication are also considered.

Caffeine and stress: implications for risk, assessment, and management of hypertension

Caffeine use is widespread, and its consumption increases during periods of stress. Caffeine raises blood pressure by elevating vascular resistance, and this effect is larger and more prolonged in hypertensive patients than in normotensive. The pressor response to caffeine occurs equally in persons at rest and under stress. The elevated baseline pressures of the hypertensive patient are therefore increased by both caffeine and stress, potentially leading to undesirably high pressures. Such combined effects on blood pressure may potentially confound the evaluation of hypertension, and possibly reduce the effectiveness of antihypertensive therapy. These effects are not abolished by pharmacologic tolerance to caffeine, as tolerance may not be complete with daily intake. The contribution of caffeine's effects to the development of hypertension warrants continued study, and caffeine use by patients merits consideration in terms of assessment and management of this disorder.

Kava pyrones exert effects on neuronal transmission and transmembraneous cation currents similar to established mood stabilizers--a review

1. Antiepileptic drugs that are successful as mood stabilizers, e.g. carbamazepine, valproate and lamotrigine, exhibit a characteristic pattern of action on ion fluxes. As a common target, they all affect Na+- and Ca2+ inward and K+ outward currents. 2. Furthermore, they have a variety of interactions with the metabolism and receptor occupation of biogenic amines and excitatory and inhibitory amino acids, and, by this, also influence long- term potentiation (LTP) to different degrees. 3. The kava pyrones (+/-)-kavain and dihydromethysticin are constituents of Piper methysticum. Anticonvulsant, analgesic and anxiolytic properties have been described in small open trials. 4. In the studies summarized in this article the effects mainly of (+/-)-kavain were tested on neurotransmission and especially on voltage gated ion channels. It is assumed that effects on ion channels may significantly contribute to clinical efficacy. 5. Experimental paradigms included current and voltage clamp recordings from rat hippocampal CA 1 pyramidal cells and dorsal root ganglia as well as field potential recordings in guinea pig hippocampal slices. 6. The findings suggest that (i) kava pyrones have a weak Na+ antagonistic effect that may contribute to their antiepileptic properties (ii) that they have pronounced L- type Ca2+ channel antagonistic properties and act as an positive modulator of the early K+ outward current. These two actions may be of importance for mood stabilization. (iii) Furthermore, kava pyrones have additive effects with the serotonin-1A agonist ipsapirone probably contributing to their anxiolytic and sleep- inducing effects. (iv) Finally, they show a distinct pattern of action on glutamatergic and GABAergic transmission without affecting LTP. The latter, however, seems not to be true for the spissum extract of Kava where suppression of LTP was observed. 7. In summary, kava pyrones exhibit a profile of cellular actions that shows a large overlap with several mood stabilizers, especially lamotrigine.

Gabapentin treatment for bipolar disorders

OBJECTIVE

[corrected] To review the effectiveness data on the use of gabapentin in bipolar disorders.

DATA SOURCES

Clinical literature was accessed through MEDLINE (January 1985-November 2000). Key search terms included gabapentin, mood stabilizer, and bipolar disorder.

DATA SYNTHESIS

Bipolar disorder is a complex condition that can be difficult to treat effectively. Mood stabilizers are increasingly being used to manage bipolar disorder. Studies that used gabapentin in bipolar disorders are evaluated.

CONCLUSIONS

From the data presented, gabapentin cannot be recommended for treatment of bipolar disorder. Further studies are required to determine whether gabapentin has any role in the management of bipolar disorder.

Effect of the New Antiepileptic Drug Levetiracetam in an Animal Model of Mania

The new antiepileptic drug levetiracetam (LEV, Keppra) was evaluated in a putative animal model for mania, namely, dexamphetamine-chlordiazepoxide mixture-induced hyperactivity in rats submitted to a Y-shaped maze test. Lithium chloride, sodium valproate, and carbamazepine, all clinically effective drugs in the treatment of acute mania, were used as comparators. The results indicate that the clinical references significantly attenuated the mixture-induced hyperactivity, thus confirming the sensitivity and pharmacological validity of this model. LEV also significantly attenuated the mixture-induced hyperactivity at doses within the range of those reported to be active in epilepsy models. ucb L060, the R-enantiomer of LEV, was without effect, thus indicating that the "antimanic" activity of LEV is stereospecific. These results suggest a potential for LEV in the treatment of mania and possibly in the management of bipolar disorder.

Anticonvulsants in the treatment of mood disorders: assessing current and future roles

Anticonvulsants are frequently used in the treatment of affective illnesses, especially for patients refractory to or intolerant of other treatments. The differential therapeutic roles of anticonvulsants, however, remain largely undetermined. The author reviews the available efficacy data for carbamazepine, oxcarbazepine, valproate, lamotrigine, gabapentin and topiramate. Valproate is efficacious in the monotherapy of acute manic presentations but confirmatory evidence of the efficacy of valproate in long-term maintenance has been elusive. Valproate and possibly carbamazepine, may provide a therapeutic advantage over lithium in non-classic bipolar conditions such as mixed mood states and rapid cycling conditions. Lamotrigine is unique among the anticonvulsants in its monotherapy efficacy for bipolar I depression. Emerging data also suggest a role for lamotrigine in the adjunctive treatment of depressive mixed states and rapid cycling conditions in the absence of prominent manic symptoms. Controlled trials have found gabapentin ineffective for acute mania and refractory bipolar conditions. The role of gabapentin in the treatment of other aspects of affective illness remains uncertain. Definitive statements regarding the differential psychotropic use of topiramate and oxcarbazepine are not possible, though active investigation is underway to better characterise the utility of topiramate. The author suggests that current diagnostic models utilised in controlled trials may limit identification of differential therapeutic benefits. Caution is advised in generalising from the ability or inability of an agent to demonstrate antimanic activity. Future studies of newer anticonvulsants should include dimensional perspectives and soft bipolar presentations, as the greatest contribution of the newer anticonvulsants may be in treatment of mood conditions other than acute mania.

Adverse-effect profile of kava

The use of alternative therapies has increased substantially over the last decade, particularly for more chronic conditions such as anxiety. Among the most widely used treatments are medicinal herbs, or phytomedicines, such as kava (Piper methysticum), which has demonstrated anxiolytic activity in both animal models and clinical samples. Kava has several advantages over conventional pharmacologic treatments for anxiety--in clinical settings it has been associated with better tolerability and lack of physiologic dependence and withdrawal. However, phytomedicines are not rigorously regulated in the United States and systematically collected safety data are very limited. These issues are a leading concern regarding the safety of medicinal herbs such as kava. In this report, the safety profile for kava is provided, including findings from a study of its use in generalized anxiety disorder. Safety parameters assessed include occurrence of adverse events, withdrawal symptoms, effect on heart rate, blood pressure, laboratory assessments, and sexual function. No differences were found between kava and placebo on any of the parameters evaluated. The data support the safety of kava in treating anxiety at 280 mg kava lactones/day for 4 weeks.

The role and regulation of adenosine in the central nervous system

Adenosine is a modulator that has a pervasive and generally inhibitory effect on neuronal activity. Tonic activation of adenosine receptors by adenosine that is normally present in the extracellular space in brain tissue leads to inhibitory effects that appear to be mediated by both adenosine A1 and A2A receptors. Relief from this tonic inhibition by receptor antagonists such as caffeine accounts for the excitatory actions of these agents. Characterization of the effects of adenosine receptor agonists and antagonists has led to numerous hypotheses concerning the role of this nucleoside. Previous work has established a role for adenosine in a diverse array of neural phenomena, which include regulation of sleep and the level of arousal, neuroprotection, regulation of seizure susceptibility, locomotor effects, analgesia, mediation of the effects of ethanol, and chronic drug use.

Effect of lamotrigine treatment on status epilepticus-induced neuronal damage and memory impairment in rat

Status epilepticus causes neuronal damage that is associated with cognitive impairment. The present study examined whether a novel antiepileptic drug, lamotrigine (LTG), alleviates status epilepticus-induced temporal lobe damage and memory impairment, and compared its efficacy with carbamazepine. Status epilepticus was induced by electric stimulation of the perforant pathway (PP) in rats. Treatment with LTG (12.5 mg/kg, twice a day) was started either 3 days before (preLTG group) or 1 h after (postLTG group) a 60 min PP stimulation. Treatment with carbamazepine (CBZ; 30 mg/kg, twice a day) was started 3 days before (CBZ group) a 60 min PP stimulation. All treatments were continued for 2 weeks. Thereafter, the severity of seizures, seizure-induced neuronal damage, quantitative electroencephalogram (EEG), and memory impairment were compared between vehicle-treated unstimulated and stimulated controls, LTG-treated rats, and CBZ-pretreated rats. Both in the preLTG and postLTG groups, damage to hilar somatostatin-immunoreactive neurons, hippocampal CA3b and CA3a pyramidal cells, and the piriform cortex was mild and did not differ from that in unstimulated controls. Furthermore, CA3c damage in the preLTG group did not differ from that in unstimulated controls. Vehicle-treated stimulated controls and CBZ-pretreated rats, however, had significant damage in the hilus, CA3 subregions, and piriform cortex compared with unstimulated controls (P<0.05 for the stimulated side, contralateral side, or both). Treatment with LTG or CBZ had no effect on the number or duration of behavioral seizures during PP stimulation. They did not affect the baseline EEG or status epilepticus-induced slowing of the EEG. Also, the status epilepticus-induced spatial memory impairment in the Morris water-maze was not attenuated by treatment with LTG or CBZ. Our data demonstrate that treatment with LTG has a mild neuroprotective effect on status epilepticus-induced neuronal damage in rats even when administered after the beginning of status epilepticus.

The bipolar spectrum and the antidepressant view of the world

Whereas much progress has been made in the diagnosis and treatment of schizophrenia and depression in recent years, bipolar disorder continues to be frequently misunderstood, leading to its inconsistent diagnosis and treatment. In this article, we seek to identify the causes of this problem and suggest possible solutions, based on a critical review of studies concerning the nosology of bipolar disorder and the effects of antidepressant agents. Bipolar disorder appears to be underdiagnosed as well as frequently misdiagnosed as unipolar major depressive disorder. Underdiagnosis can stem from patients' impaired insight into mania and failure to involve family members in the diagnostic process and also from clinicians' inadequate understanding of manic symptoms. Underdiagnosis may also reflect disagreement about the breadth of the bipolar spectrum. We therefore propose a heuristic definition of "bipolar spectrum disorder," a diagnosis that gives greater weight to family history and antidepressant-induced manic symptoms. This diagnosis would include all forms of bipolar illness that are not type I or II . The evidence also suggests that antidepressants are probably overused and mood stabilizers underused. We consequently recommend aggressive use of mood stabilizers and less emphasis on antidepressants. In summary, the state of diagnosis and treatment in bipolar disorder is suboptimal. More diagnostic attention to the criteria for mania is necessary. In addition, the current pattern of antidepressant use in bipolar disorder does not appear to be evidence-based.

Adenosine, prolonged wakefulness, and A1-activated NF-kappaB DNA binding in the basal forebrain of the rat

There is considerable evidence to suggest that adenosine is a modulator of behavioral state. Our previous reports showed that perfusion of adenosine into the basal forebrain decreased wakefulness. Furthermore, prolonged wakefulness resulted in increased levels of extracellular adenosine in the basal forebrain of cats and rats. However, the longer-term consequences of prolonged wakefulness and increased adenosine are largely unknown. We report here an increase in the DNA binding activity of the transcription factor, nuclear factor-kappa B (NF-kappaB) following 3 h of sustained wakefulness in the rat basal forebrain. Moreover, this treatment led to the appearance of the p65 subunit of NF-kappaB in the nucleus, as determined by western blot analysis of nuclear proteins. This contrasted with undetectable levels in the sleeping controls. A concomitant disappearance of I-kappaB in cytoplasm suggested the degradation of this inhibitor of NF-kappaB. In the acute in vitro basal forebrain slice preparation, perfusion of adenosine increased NF-kappaB DNA binding while pretreatment of the slices with the A1 adenosine receptor antagonist, cyclopentyl-1-3-dimethylxanthine, significantly reduced NF-kappaB DNA binding. These results are compatible with the hypothesis that increases in the levels of adenosine in the basal forebrain, that occur during prolonged wakefulness, act through an A1 adenosine receptor and a second messenger system to increase the activity of the transcription factor NF-kappaB. We further hypothesize that some of the long duration effects of prolonged wakefulness/sleep deprivation on performance and physiology, often termed 'sleep debt', might be mediated through adenosine and its activation of NF-kappaB, which is known to alter the expression of several behavioral state regulatory factors.

Psychosis: pathological activation of limbic thalamocortical circuits by psychomimetics and schizophrenia?

Non-competitive NMDA receptor antagonists, such as phencyclidine, ketamine and MK801, produce psychosis in humans. These drugs also produce injury to cingulate-retrosplenial cortex in adult rodents that can be prevented by GABA-receptor agonists and antipsychotics such as haloperidol and clozapine. MK801 injections into anterior thalamus reproduce limbic cortex injury, and GABA-receptor agonist injections into anterior thalamus prevent injury produced by systemic MK801. Inhibition of NMDA receptors on GABAergic thalamic reticular nucleus neurons might activate thalamocortical 'injury' circuits in animals. Pathological activation of thalamocortical circuits might also mediate the psychosis produced by NMDA-receptor antagonists in humans, and might contribute to psychosis in schizophrenia.

Glycine transport inhibitors as potential antipsychotic drugs

Current antipsychotic drugs are only partially effective in treating schizophrenia and there is a clear need to develop better therapies. An alternative approach to develop new antipsychotics has come from the NMDA receptor hypofunction model for schizophrenia. It has been hypothesised that stimulation of NMDA receptors with glycine site agonists may be therapeutic, and a number of clinical trials of glycine together with standard antipsychotic drugs have been recently been conducted. Modest improvements in negative symptoms have been reported in some studies but a potentially more effective treatment is to use inhibitors of the GLYT1 subtype of glycine transporters. Expression of GLYT1 within the brain correlates with NMDA receptor expression patterns and it has been suggested that GLYT1 may regulate synaptic glycine concentrations. With the development of selective and potent non-transported inhibitors of GLYT1 it should be possible to elevate synaptic glycine concentrations more effectively and thereby to increase NMDA receptor activity. Recent in vitro studies demonstrate that the glycine transport inhibitor, N[3-(4-fluorophenyl)-3-(4'-phenylphenoxy)] propylsarcosine, enhances NMDA receptor activity and the use of this class of compounds in clinical studies is eagerly awaited.

Effect of gabapentin and lamotrigine on mechanical allodynia-like behaviour in a rat model of trigeminal neuropathic pain

Injury to the trigeminal nervous system may induce severe pain states. This study examined the antinociceptive effect of the novel anticonvulsants, gabapentin and lamotrigine, in a rat model of trigeminal neuropathic pain produced by chronic constriction of one infraorbital nerve. Responsiveness to von Frey filament stimulation of the vibrissal pad was evaluated 2 weeks post-operation. Hyper-responsive rats received acute and repeated (five injections separated by the half-life of the compound) injections with gabapentin and lamotrigine. 76% of the nerve-injured rats displayed pronounced hyper-responsiveness (median 0.217 g (lower-upper percentiles 0.217-0.217) vs. 12.5 g pre-operative), that was resistant to both single (5-100 mg/kg) and repeated (5-30 mg/kg) injections with i.p. lamotrigine. Repeated (30 and 50 mg/kg), but not single (30-100 mg/kg) injections of i.p. gabapentin partially alleviated the mechanical allodynia-like behaviour. Repeated injections of gabapentin at 50 but not at 30 mg/kg produced motor deficits. The results indicate that gabapentin rather than lamotrigine may be a better therapeutic approach for the clinical management of some trigeminal neuropathic pain disorders.

A hebbian form of long-term potentiation dependent on mGluR1a in hippocampal inhibitory interneurons

Hippocampal inhibitory interneurons play important roles in controlling the excitability and synchronization of pyramidal cells, but whether they express long-term synaptic plasticity that contributes to hippocampal network function remains uncertain. We found that pairing postsynaptic depolarization with theta-burst stimulation induced long-term potentiation (LTP) of putative single-fiber excitatory postsynaptic currents in interneurons. Either postsynaptic depolarization or theta-burst stimulation alone failed to induce LTP. LTP was expressed as a decrease in failure rates and an increase in excitatory postsynaptic current amplitude, independent of N-methyl-d-aspartate receptors, and dependent on metabotropic glutamate receptors subtype 1a. LTP was induced specifically in interneurons in stratum oriens and not in interneurons of stratum radiatum/lacunosum-moleculare. Thus, excitatory synapses onto specific subtypes of inhibitory interneurons express a new form of hebbian LTP that will contribute to hippocampal network plasticity.

Lamotrigine inhibition of glutamate release from isolated cerebrocortical nerve terminals (synaptosomes) by suppression of voltage-activated calcium channel activity

Lamotrigine (LAG) is an antiepileptic drug which is believed to suppress seizures by inhibiting the release of excitatory neurotransmitters. The present study was aimed at investigating the effect of LAG on the 4-aminopyridine (4AP)-evoked glutamate release in cerebrocortical nerve terminals (synaptosomes). LAG inhibited the release of glutamate evoked by 4AP in a concentration-dependent manner. This inhibitory effect was associated with a reduction in the depolarization-evoked increase in the cytoplasmic free Ca2+ concentration ([Ca2+]C). In addition, LAG did not alter the resting synaptosomal membrane potential or 4AP-evoked depolarization. Furthermore, ionomycin-evoked glutamate release was not affected by LAG. Based on these results, we suggest that presynaptic calcium influx blockade and inhibition of glutamate release may underlie the mechanism of action of LAG. These action may also contribute to their neuroprotective properties in excitotoxic injury.

Adenosine A(1) and A(2A) receptors modulate sleep state and breathing in fetal sheep

This study was designed to determine the adenosine (Ado) receptor subtype that mediates the depressant effects of Ado on fetal breathing and rapid eye movements (REM). In chronically catheterized fetal sheep (>0.8 term), intra-arterial infusion of N(6)-cyclopentyladenosine (CPA), an Ado A(1)-receptor agonist, increased the incidence of high-voltage electrocortical (ECoG) activity while virtually abolishing low-voltage activity, REM, and breathing. These effects were blocked by 9-cyclopentyl-1,3-dipropylxanthine (DPCPX), an Ado A(1)-receptor antagonist. Infusion of DPCPX alone increased breath amplitude but had no significant effect on inspiratory duration, breath interval, incidence of REM, or incidence of low-voltage activity. Ado A(2A)-receptor blockade with ZM-241385 increased the incidence of low-voltage ECoG activity, REM, and breathing but had no effect on breath amplitude or respiratory cycle. Both DPCPX and ZM-241385 eliminated the inhibitory effects of Ado on REM and breathing. We conclude that 1) Ado A(1) receptors tonically inhibit fetal respiratory drive, 2) Ado A(2A) receptors tonically inhibit REM-like behavioral state, and 3) both Ado A(1) and A(2A) receptors mediate the depressant effects of Ado on REM and breathing.

Semantic disturbance in schizophrenia and its relationship to the cognitive neuroscience of attention

We view schizophrenia as producing a failure of attentional modulation that leads to a breakdown in the selective enhancement or inhibition of semantic/lexical representations whose biological substrata are widely distributed across left (dominant) temporal and frontal lobes. Supporting behavioral evidence includes word recall studies that have pointed to a disturbance in connectivity (associative strength) but not network size (number of associates) in patients with schizophrenia. Paralleling these findings are recent neural network simulation studies of the abnormal connectivity effect in schizophrenia through 'lesioning' network connection weights while holding constant network size. Supporting evidence at the level of biology are in vitro studies examining N-methyl-D-aspartate (NMDA) receptor antagonists on recurrent inhibition; simulations in neural populations with realistically modeled biophysical properties show NMDA antagonists produce a schizophrenia-like disturbance in pattern association. We propose a similar failure of NMDA-mediated recurrent inhibition as a candidate biological substrate for attention and semantic anomalies of schizophrenia.

Contribution of the hyperpolarization-activated current (I(h)) to membrane potential and GABA release in hippocampal interneurons

Intrinsic GABAergic interneurons provide inhibitory input to the principal neurons of the hippocampus. The majority of interneurons located in stratum oriens (s.o.) of the CA1 region express the hyperpolarization-activated cation current known as I(h). In an effort to elucidate the role of this current in regulating the baseline excitability of these neurons and its participation in the regulation of the release of GABA onto CA1 pyramidal neurons, we utilized whole cell electrophysiological recordings from both populations of cells. In voltage-clamp experiments, hyperpolarization of the interneuron membrane initiated a large inward current with an estimated activation threshold of 51.6 +/- 7.6 mV and a half-maximal voltage of -73.0 +/- 7.0 mV. This current was blocked by bath application of the I(h) inhibitors ZD 7288 (50 microM) or cesium (2 mM). Current-clamp experiments at the interneuron resting membrane potential (-61.3 +/- 1.2 mV) revealed a significant hyperpolarization, a decrease in the rate of spontaneous action potential discharge, an increase in the cellular input resistance, and the elimination of rebound afterdepolarizations during blockade of I(h) with ZD 7288 (50 microM). The hyperpolarizing effect of ZD 7288 was also substantially larger in interneurons clamped near -80 mV using current injection through the pipette. In addition to neurons exhibiting I(h), recordings were obtained from a small population of s.o. interneurons that did not exhibit this current. These cells demonstrated resting membrane potentials that were significantly more negative (-73.6 +/- 5.5 mV) than those observed in neurons expressing I(h), suggesting that this current contributes to more depolarized membrane potentials in these cells. Recordings from postsynaptic pyramidal neurons demonstrated that blockade of I(h) with ZD 7288 caused a substantial reduction (approximately 43%) in the frequency of spontaneous action potential-dependent inhibitory postsynaptic currents (IPSCs), without altering their average amplitude. However, miniature action-potential-independent IPSC frequency, amplitude, and decay kinetics were unaltered by ZD 7288. These data suggest that I(h) is active at the resting membrane potential in s.o. interneurons and as a result contributes to the spontaneous activity of these cells and to the tonic inhibition of CA1 pyramidal neurons in the hippocampus.

Opposite changes in adenosine A1 and A2A receptor mRNA in the rat following sleep deprivation

Extracellular levels of adenosine increase in basal forebrain following prolonged wakefulness. Moreover, perfusion of adenosine into basal forebrain increases sleep. In this study we have examined the adenosine receptor subtypes, A1 and A2A, for changes in the levels of mRNA using RT-PCR and in situ hybridization and the receptor ligand binding efficiency using autoradiography following 3 and 6 h of sleep deprivation. We observed that A1 receptor mRNA levels increased in basal forebrain with no changes in other forebrain areas examined. A1 receptor binding was not affected. A2A receptor mRNA and ligand binding were undetectable in basal forebrain. However, in the olfactory tubercle, A2A mRNA and receptor binding decreased significantly. Based on the significant increase in the A1 but not in A2A receptor, we hypothesize that the effects of sleep deprivation-induced increased adenosine are mediated by A1 receptor in basal forebrain of rats.

Adenosine-mediated presynaptic modulation of glutamatergic transmission in the laterodorsal tegmentum

The laterodorsal tegmentum (LDT) neurons supply most of the cholinergic tone to the brainstem and diencephalon necessary for physiological arousal. It is known that application of adenosine in the LDT nucleus increases sleep in vivo (Portas et al., 1997) and directly inhibits LDT neurons in vitro by activating postsynaptic adenosine A(1) receptors (Rainnie et al., 1994). However, adenosine effects on synaptic inputs to LDT neurons has not been previously reported. We found that both evoked glutamatergic EPSCs and GABAergic IPSCs were reduced by adenosine (50 micrometer). A presynaptic site of action for adenosine A(1) receptors on glutamatergic afferents was suggested by the following: (1) adenosine did not affect exogenous glutamate-mediated current, (2) adenosine reduced glutamatergic miniature EPSC (mEPSC) frequency, without affecting the amplitude, and (3) inhibition of the evoked EPSC was mimicked by the A(1) agonist N6-cyclohexyladenosine (100 nm) but not by the A(2) agonist N6-[2-(3,5-dimethoxyphenyl)-2-(methylphenyl)-ethyl]-adenosine (10 nm). The A(1) receptor antagonist 8-cyclopentyltheophylline (CPT; 200 nm) potentiated the evoked EPSCs, suggesting the presence of a tonic activation of presynaptic A(1) receptors by endogenous adenosine. The adenosine kinase inhibitor, 5-iodotubercidin (10 micrometer), mimicked adenosine presynaptic and postsynaptic effects. These effects were antagonized by CPT or adenosine deaminase (0.8 IU/ml), suggesting mediation by increased extracellular endogenous adenosine. Together, these data suggest that the activity of LDT neurons is under inhibitory tone by endogenous adenosine through the activation of both presynaptic A(1) receptors on excitatory terminals and postsynaptic A(1) receptors. Furthermore, an alteration of adenosine kinase activity modifies the degree of this inhibitory tone.

Stress-induced insomnia treated with kava and valerian: singly and in combination

Kava and valerian are herbal remedies that are claimed to have anxiolytic and sedative properties respectively, without dependence potential or any appreciable side effects. In this pilot study, 24 patients suffering from stress-induced insomnia were treated for 6 weeks with kava (LI-150), 120 mg daily. This was followed by a 2-week 'wash-out' period off treatment, and then, five patients having dropped out, 19 received valerian (LI-156), 600 mg daily, for another 6 weeks. Then there was a further 2-week period off treatment, and a final 6 weeks of treatment of these 19 patients with the two compounds combined (kava + valerian). Stress was measured in three areas: social, personal and life events; insomnia in three areas also: time to fall asleep, hours slept and waking mood. Total stress severity was significantly relieved by both compounds individually (p < 0.01), with no significant differences between them; and there was also improvement with the combination, significant in the case of insomnia (p < 0.05). On direct questioning, 16 patients (67%) reported no side effects on kava, 10 (53%) on valerian and 10 (53%) on the combination. The 'commonest' effect was vivid dreams with kava + valerian (4 cases (21%)) and with valerian alone (3 cases (16%)), followed by gastric discomfort and dizziness with kava (3 cases each (3 %)). These results are considered to be extremely promising but further studies may be required to determine the relative roles of the two compounds for such indications. Copyright 2001 John Wiley & Sons, Ltd.

Lamotrigine: a review of clinical studies in bipolar disorders

OBJECTIVE

This article reviews published studies on the use of lamotrigine in the treatment of bipolar disorder (BD).

METHOD

We performed a Medline search to identify the literature data base available on double-blind, open-label studies and case series on the use of lamotrigine to treat BD.

RESULTS

Three double-blind studies, 3 open-label studies, and 2 case series have been conducted to date (n = 401 patients). Most patients were either nonresponders or partial responders to other mood stabilizers. Overall, 50% to 83% of the patients responded to lamotrigine; doses in the studies ranged from 50 to 400 mg daily. Switching to mania while on 200 mg of lamotrigine or more was extremely rare, and there were no reports of serious adverse effects during the study periods.

CONCLUSION

Lamotrigine is proving to be an effective agent in the treatment of BD and may be useful for patients who have not responded to other mood stabilizers.

Experimental immunomodulation, sleep, and sleepiness in humans

Infection, inflammation, and autoimmune processes are accompanied by serious disturbances of well-being, psychosocial functioning, cognitive performance, and behavior. Here we review those studies that have investigated the effects of experimental immunomodulation on sleep and sleepiness in humans. In most of these studies bacterial endotoxin was injected intravenously to model numerous aspects of infection including the release of inflammatory cytokines. These studies show that human sleep-wake behavior is very sensitive to host defense activation. Small amounts of endotoxin, which affect neither body temperature nor neuroendocrine systems but slightly stimulate the secretion of inflammatory cytokines, promote non-rapid-eye-movement sleep amount and intensity. Febrile host responses, in contrast, go along with prominent sleep disturbances. According to present knowledge tumor necrosis factor-alpha (TNF-alpha) is most probably a key mediator of these effects, although it is likely that disturbed sleep during febrile host responses involves endocrine systems as well. There is preliminary evidence from human studies suggesting that inflammatory cytokines such as TNF-alpha not only mediate altered sleep-wake behavior during infections, but in addition are involved in physiological sleep regulation and in hypnotic effects of established sedating drugs.

A review of MRI findings in schizophrenia

After more than 100 years of research, the neuropathology of schizophrenia remains unknown and this is despite the fact that both Kraepelin (1919/1971: Kraepelin, E., 1919/1971. Dementia praecox. Churchill Livingston Inc., New York) and Bleuler (1911/1950: Bleuler, E., 1911/1950. Dementia praecox or the group of schizophrenias. International Universities Press, New York), who first described 'dementia praecox' and the 'schizophrenias', were convinced that schizophrenia would ultimately be linked to an organic brain disorder. Alzheimer (1897: Alzheimer, A., 1897. Beitrage zur pathologischen anatomie der hirnrinde und zur anatomischen grundlage einiger psychosen. Monatsschrift fur Psychiarie und Neurologie. 2, 82-120) was the first to investigate the neuropathology of schizophrenia, though he went on to study more tractable brain diseases. The results of subsequent neuropathological studies were disappointing because of conflicting findings. Research interest thus waned and did not flourish again until 1976, following the pivotal computer assisted tomography (CT) finding of lateral ventricular enlargement in schizophrenia by Johnstone and colleagues. Since that time significant progress has been made in brain imaging, particularly with the advent of magnetic resonance imaging (MRI), beginning with the first MRI study of schizophrenia by Smith and coworkers in 1984 (Smith, R.C., Calderon, M., Ravichandran, G.K., et al. (1984). Nuclear magnetic resonance in schizophrenia: A preliminary study. Psychiatry Res. 12, 137-147). MR in vivo imaging of the brain now confirms brain abnormalities in schizophrenia. The 193 peer reviewed MRI studies reported in the current review span the period from 1988 to August, 2000. This 12 year period has witnessed a burgeoning of MRI studies and has led to more definitive findings of brain abnormalities in schizophrenia than any other time period in the history of schizophrenia research. Such progress in defining the neuropathology of schizophrenia is largely due to advances in in vivo MRI techniques. These advances have now led to the identification of a number of brain abnormalities in schizophrenia. Some of these abnormalities confirm earlier post-mortem findings, and most are small and subtle, rather than large, thus necessitating more advanced and accurate measurement tools. These findings include ventricular enlargement (80% of studies reviewed) and third ventricle enlargement (73% of studies reviewed). There is also preferential involvement of medial temporal lobe structures (74% of studies reviewed), which include the amygdala, hippocampus, and parahippocampal gyrus, and neocortical temporal lobe regions (superior temporal gyrus) (100% of studies reviewed). When gray and white matter of superior temporal gyrus was combined, 67% of studies reported abnormalities. There was also moderate evidence for frontal lobe abnormalities (59% of studies reviewed), particularly prefrontal gray matter and orbitofrontal regions. Similarly, there was moderate evidence for parietal lobe abnormalities (60% of studies reviewed), particularly of the inferior parietal lobule which includes both supramarginal and angular gyri. Additionally, there was strong to moderate evidence for subcortical abnormalities (i.e. cavum septi pellucidi-92% of studies reviewed, basal ganglia-68% of studies reviewed, corpus callosum-63% of studies reviewed, and thalamus-42% of studies reviewed), but more equivocal evidence for cerebellar abnormalities (31% of studies reviewed). The timing of such abnormalities has not yet been determined, although many are evident when a patient first becomes symptomatic. There is, however, also evidence that a subset of brain abnormalities may change over the course of the illness. The most parsimonious explanation is that some brain abnormalities are neurodevelopmental in origin but unfold later in development, thus setting the stage for the development of the symptoms of schizophrenia. Or there may be additional factors, such as stress or neurotoxicity, that occur during adolescence or early adulthood and are necessary for the development of schizophrenia, and may be associated with neurodegenerative changes. Importantly, as several different brain regions are involved in the neuropathology of schizophrenia, new models need to be developed and tested that explain neural circuitry abnormalities effecting brain regions not necessarily structurally proximal to each other but nonetheless functionally interrelated. (ABSTRACT TRUNCATED)

Novel treatments for bipolar disorder

Treatments other than lithium have recently emerged as equally important in the management of bipolar disorder. The spectrum of efficacy of newer treatments differs from lithium and among the novel drug treatments valproate, generally used as the better tolerated divalproex form, principally benefits manic symptomatology both acutely and in prophylaxis. Atypical antipsychotic drugs have demonstrated efficacy in reducing acute manic symptoms. No controlled evidence of efficacy in prophylaxis has been published. Lamotrigine has demonstrated efficacy in both acute bipolar depression and maintenance efficacy in rapid cycling bipolar patients, especially those patients with bipolar II disorder, which is principally manifested as depression. Randomised, double-blind, placebo- controlled studies provide good evidence that regimens of risperidone or olanzapine in combination with lithium or valproate provide greater improvement in acute mania than the mood stabilisers alone. Similarly, valproate combined with antipsychotics provided greater improvement in mania than antipsychotic medication alone and resulted in lower dosage of the antipsychotic medication. A positive but unclear placebo-controlled study of omega-3 fatty acids added to lithium in bipolar disorder needs confirmation in standard clinical trial paradigms. Several other drugs that were reported as beneficial in various facets of bipolar disorder in open trials have not differed from placebo when studied in randomised, placebo-controlled trials.

Special issues in the treatment of paediatric bipolar disorder

Paediatric bipolar disorder (PBD) is an increasingly diagnosed disorder affecting an estimated 1% of children and adolescents. Pharmacological treatment studies in PBD have lagged far behind those in adults. Children are currently treated with pharmacological agents, most of which have proven efficacy in adults. However, PBD is distinct from adult forms of bipolar disorder (BD) and may present unique treatment challenges. PBD often presents with rapid cycling and mixed manic states and a high co-morbidity with behavioural and attention disorders. Early onset depression may also be an early sign of PBD. Due to developmental considerations, the diagnosis of BD may be difficult to make in children without semi-structured interviews. This report discusses the special issues that should be considered when treating PBD and reviews the current literature regarding pharmacotherapy of this population. Mood stabilisers have been studied mostly in an open, uncontrolled fashion but there is growing evidence that lithium, divalproex and carbamazepine are effective in treating PBD. More recent treatment options include atypical antipsychotics and newer anticonvulsants. Other novel agents are currently being investigated in adult BD and may prove applicable to the paediatric form. Finally, based on the available data, a treatment algorithm for PBD is proposed.

Non-opioid actions of lamotrigine within the rat dorsal horn after inflammation and neuropathic nerve damage

Some opioid-resistant pain conditions can be alleviated by voltage-dependent Na(+) channel blockers such as lamotrigine. The mu-opioid-receptor agonist morphine can modulate cation entry into cells to affect overall cellular excitability, an effect which can in turn be endogenously antagonised by the neuropeptide cholecystokinin (CCK). However, lamotrigine may also modulate cellular excitability by non-specifically blocking voltage-dependent ion channels. We have looked for interactions of lamotrigine with the opioid/CCK pathway within the spinal dorsal horn, to rule out the possibility that lamotrigine may attenuate nociceptive responses via actions on this pathway. Both lamotrigine and the mu-opioid agonist DAMGO inhibited mustard oil-evoked cell firing by approximately 50% compared with control levels. Co-application of CCK8S reversed DAMGO-, but not lamotrigine-induced inhibition of cell firing and this reversal was prevented with the selective CCK(B) receptor antagonist PD 135158. Although lamotrigine inhibited both brush- and cold-evoked cell firing in neuropathic animals, lamotrigine inhibition of mustard oil-evoked cell firing in the same animals was not significantly greater than that observed in controls. These results suggest that the antinociceptive properties of lamotrigine within the spinal dorsal horn are unlikely to be mediated via interactions with the opioid/CCK pathway.

Bipolar disorders: new approaches to therapy

This article reviews the evidence supporting different somatic treatment strategies in the acute and maintenance treatment phases of bipolar disorder. Bipolar affective disorder is a chronic disorder with a life time incidence of 0.3 - 1.5/100 [1]. Severe affective disorder is associated with a risk of completed suicide of 6 - 15% [2,3]. Traditionally, bipolar disorder has been considered as an episodic disorder with good inter-episode recovery [4]. This is being increasingly challenged with patients demonstrating social, marital, occupational and cognitive dysfunction, even when euthymic [5]. The management of bipolar disorder should be considered in the context of; the type of episode, this may be manic, depressed or mixed; the degree and rate of recovery; the cycling frequency and precipitant, if any, for recurrence and the onset and evolution of the underlying illness. On average, four episodes occur every 10 years. However 13 - 24% of patients develop rapid cycling disorder, in which four or more episodes occur within a year. Patients with bipolar disorder often have co-morbid anxiety and substance abuse. Moreover, axis I co-morbidity may be associated with an earlier age at onset and worsening course of bipolar illness. [6]. Axis II co-morbidity is also common, this was highlighted in a study by Kay and colleagues who, after excluding patients with a history of alcohol misuse, demonstrated axis II co-morbidity in almost a quarter of euthymic bipolar patients [7]. Good practice relies on an overall management plan that incorporates somatic, psychological and social approaches. This paper will focus on one element of such a plan, the currently available somatic management strategies for bipolar disorder.

Microinfusion of the non-competitive N-methyl-D-aspartate receptor antagonist MK-801 (dizocilpine) into the dorsal hippocampus of wistar rats does not affect latent inhibition and prepulse inhibition, but increases startle reaction and locomotor activity

Latent inhibition (the retarded conditioning to a stimulus following its repeated non-reinforced pre-exposure) and prepulse inhibition (the reduction in the startle response to an intense acoustic stimulus when this stimulus is immediately preceded by a prepulse) reflect cognitive and sensorimotor gating processes, respectively, and are deficient in schizophrenic patients. The disruption of latent inhibition and prepulse inhibition in the rat is used as an animal model for the attentional deficits associated with schizophrenia. The present study tested the extent to which latent inhibition and prepulse inhibition, startle reaction and locomotor activity in the open field were affected by infusing the non-competitive N-methyl-D-aspartate receptor antagonist MK-801 (dizocilpine) into the dorsal hippocampus of Wistar rats. We used the same dose of MK-801 (6.25microg/0.5microl per side) previously found to be effective in the disruption of prepulse inhibition when infused into the dorsal hippocampus of Sprague-Dawley rats [Bakshi V. P. and Geyer M. A. (1998) J. Neurosci. 18, 8394-8401; Bakshi V. P. and Geyer M. A. (1999) Neuroscience 92, 113-121]. Bilateral infusion of MK-801 into the dorsal hippocampus did not disrupt latent inhibition. Furthermore, in contrast to previous studies, we failed to find a significant disruption of prepulse inhibition after MK-801 infusion into the dorsal hippocampus, although MK-801 infusion was effective in increasing the startle amplitude as well as locomotor activity in an open field. From our results, we suggest that N-methyl-D-aspartate receptor-mediated processes within the dorsal hippocampus are not necessary for the normal maintenance of the attentional processes reflected by latent inhibition and prepulse inhibition.

Topiramate monotherapy in the maintenance treatment of bipolar I disorder: effects on mood, weight and serum lipids

Topiramate is a newly developed anticonvulsant agent with possible mood-stabilizing properties. Little is known about the short- and long-term effects of topiramate monotherapy in bipolar disorder. We here present the case of a 60-year-old female bipolar patient who received topiramate alone as maintenance treatment after recovering from euphoric mania. During 7 months, she was free from new manic symptomatology and she was able to reduce her overweight by 16.5 kg. The patient who is known to have a strongly hyperthymic temperament described symptoms of fatigue and sedation and eventually discontinued topiramate monotherapy. When she presented again in our bipolar clinic, severe euphoric mania had developed. After hospitalization, she slowly responded to oral sodium valproate loading plus zotepine. Her weight increased again and so did her triglyceride serum levels. Topiramate treatment and discontinuation did not seem to affect cholesterol serum levels.

Anticonvulsant lamotrigine administered on reperfusion fails to improve experimental stroke outcomes

BACKGROUND AND PURPOSE

Recent results suggest that selective inhibitors of presynaptic neuronal ion channels can diminish glutamate release during cerebral ischemia and modulate excitotoxic cell death. The aim of the present study was to evaluate lamotrigine (LTG), an antiepileptic that inhibits presynaptic sodium and voltage-sensitive calcium channels, as a potential stroke resuscitation agent in the rat. Three dosages of LTG were examined for effect on infarction volume and sensorimotor behavioral recovery after middle cerebral artery (MCA) occlusion.

METHODS

Halothane-anesthetized male Wistar rats were subjected to 2 hours of MCA occlusion by the intraluminal occlusion technique. Physiological variables were controlled, and ipsilateral cortical perfusion was monitored by laser Doppler flowmetry throughout ischemia. At onset of reperfusion, rats received intravenous LTG 5, 10, or 20 mg/kg or PBS (n=9 to 11 per group) during 15 minutes. Behavioral assessment was completed at 3 and 7 days after stroke, and the brain was harvested for histology (triphenyltetrazolium chloride staining).

RESULTS

Values are mean+/-SE. Cortical infarction volumes were unchanged in LTG-treated animals: 14+/-6% of contralateral cortex at 5 mg/kg LTG, 17+/-7% at 10 mg/kg, and 30+/-6% at 20 mg/kg, versus saline-treated cohorts (12+/-3%; P:=0.19; n=9). Caudate-putamen infarction injury was also unchanged (37+/-11% of contralateral caudate-putamen at 5 mg/kg LTG, 44+/-8% at 10 mg/kg, and 65+/-9% at 20 mg/kg versus saline (38+/-11%; P:=0.18). Total infarction was not different among groups (P:=0.15). Consistent with histology, behavioral outcomes were unimproved by treatment.

CONCLUSIONS

Histological damage and behavioral recovery at 7 days after MCA occlusion was not altered by LTG treatment over the dosage range used in the present study.

Adjunctive gabapentin in treatment-resistant depression: a retrospective chart review

BACKGROUND

Previous studies in predominantly bipolar patients have suggested that gabapentin may be useful in treating mood disorders. This report describes its efficacy and tolerability as an adjunctive agent in treatment-resistant depression.

METHODS

A chart review was conducted on 27 outpatients presenting with a depressive disorder in whom gabapentin was added to ongoing treatment with a conventional antidepressant to which patients had not responded after at least 6 weeks. The majority of patients had either prominent anxiety or a history of soft bipolar features, but patients with bipolar I disorder were excluded. Clinical state and adverse effects were assessed retrospectively at each visit.

RESULTS

Mean gabapentin trial duration was 15.2+/-7.8 weeks, with a mean final dose of 904+/-445 mg/day (range, 300-1800 mg/day). Clinician-rated measures of clinical state improved significantly from baseline to endpoint. Overall, 37.0% (n=10) of patients were responders at endpoint; another 18.5% (n=5) manifested a transient response not sustained to endpoint. Gabapentin was well tolerated; the most common adverse effects were fatigue, sedation, dizziness, and gastrointestinal symptoms.

LIMITATIONS

Treatment was uncontrolled and efficacy assessments were retrospective.

CONCLUSION

These findings suggest that gabapentin may be of adjunctive benefit in the management of treatment-resistant depression.