Carbamazepine-10,11-epoxide in epilepsy. A pilot study

The effects of carbamazepine-10,11-epoxide, an active metabolite of carbamazepine, were evaluated in seven outpatients with frequent epileptic seizures. The study included an initial 4-week period with the carbamazepine dose optimized for each patient. Patients were then crossed over, dose by dose, to carbamazepine-10,11-epoxide and followed up for another 4 weeks. Dosing was single blind. The evaluation of the anticonvulsant effect was hampered by marked fluctuations in plasma levels during treatment with carbamazepine-10,11-epoxide. There was, however, no significant change in seizure control. During epoxide treatment, no subjective side effects were reported despite epoxide plasma concentrations up to 57 mumol/L. Neuropsychological assessment revealed a significant improvement in finger motor speed and logical reasoning during the carbamazepine-10,11-epoxide period. Subnormal serum sodium levels in two patients were normalized after switching from carbamazepine to the epoxide. Continued investigations with this active metabolite of carbamazepine in epilepsy are therefore justified.     

Total and free serum concentrations of carbamazepine and carbamazepine-10,11-epoxide in children with epilepsy

Simultaneous steady-state serum total and free (non-protein-bound) concentrations of carbamazepine and carbamazepine-10,11-epoxide were measured in 68 patients under the age of 21 years with epilepsy (44 males, 24 females; mean age, 11.8 +/- 4.5 years). Thirty patients were maintained on monotherapy with carbamazepine. Mean serum total carbamazepine and carbamazepine-10,11-epoxide concentrations obtained were 7.0 +/- 2.4 mg/L (29.5 +/- 10.0 mumol/L) and 1.5 +/- 0.6 mg/L (5.9 +/- 2.6 mumol/L), respectively. Mean serum-free carbamazepine and carbamazepine-10,11-epoxide concentrations obtained were 1.3 +/- 0.5 mg/L (5.7 +/- 2.1 mumol/L) and 0.5 +/- 0.3 mg/L (2.2 +/- 1.1 mumol/L), respectively. Binding of carbamazepine and carbamazepine-10,11-epoxide was 81% +/- 3% and 62% +/- 10%, respectively. There was no significant difference in binding between male and female patients or those maintained on monotherapy and polytherapy. Age correlated significantly with carbamazepine binding but not with carbamazepine-10,11-epoxide binding. Free concentrations of carbamazepine and carbamazepine-10,11-epoxide correlated significantly with total carbamazepine and total carbamazepine-10,11-epoxide concentrations, respectively, indicating that the binding capacities of both carbamazepine and carbamazepine-10,11-epoxide are constant at serum total carbamazepine concentrations within the quoted therapeutic range.     

Carbamazepine-viloxazine interaction in patients with epilepsy.

In six depressed epileptic patients stabilised on carbamazepine therapy, addition of the antidepressant agent viloxazine (300 mg/day for three weeks) induced a marked (average 55%) increase in steady-state plasma carbamazepine concentration. The concentration of the active metabolite carbamazepine-10,11-epoxide also increased during viloxazine therapy, but to a lesser extent (16%). In three patients, these effects were associated with symptoms of carbamazepine intoxication, which regressed rapidly when plasma carbamazepine and carbamazepine-10,11-epoxide levels returned to baseline values after discontinuation of viloxazine. In a seventh patient, viloxazine had to be discontinued after only two weeks because of severe side effects associated with a striking elevation of carbamazepine and carbamazepine 10,11-epoxide levels (by 197% and 137% respectively). Although viloxazine appears to be one of the few antidepressants which can be used safely in patients with epilepsy these results indicate that the drug should be prescribed with great caution in subjects treated with carbamazepine. The mechanism of the interaction probably involves inhibition of the metabolism of both carbamazepine and its active epoxide metabolite.     

The clinical pharmacology of traditional antiepileptic drugs

Despite the availability of newer agents, a number of antiepileptic drugs have continued to be employed reasonably widely, many years after their introduction to human therapeutics. These drugs comprise phenobarbitone and some of its congeners, phenytoin, ethosuximide, carbamazepine, valproate, and certain benzodiazepines. Details of their pharmacological profiles are outlined in the following account.     

Antiepileptic drug regimens and major congenital abnormalities in the offspring.

To assess the risk of major congenital abnormalities associated with specific antiepileptic drug regimens, a large retrospective cohort study was performed. The study comprised 1,411 children born between 1972 and 1992 in four provinces in The Netherlands who were born to mothers with epilepsy and using antiepileptic drugs during the first trimester of pregnancy, and 2,000 nonepileptic matched controls. We found significantly increased risks of major congenital abnormalities for carbamazepine and valproate monotherapy, with evidence for a significant dose-response relationship for valproate. The risk of major congenital abnormalities was nonsignificantly increased for phenobarbital monotherapy when caffeine comedication was excluded, but a significant increase in risk was found when caffeine was included. Phenytoin monotherapy was not associated with an increased risk of major congenital abnormalities. Regarding polytherapy regimens, increased risks were found for several antiepileptic drug combinations. Clonazepam, in combination with other antiepileptic drugs, showed a significantly increased relative risk. Furthermore, there were significantly increased relative risks for the combination of carbamazepine and valproate and the combination of phenobarbital and caffeine with other antiepileptic drugs. This study shows that most antiepileptic drug regimens were associated with an increased risk of major congenital abnormalities in the offspring, in particular valproate (dose-response relationship) and carbamazepine monotherapy, benzodiazepines in polytherapy, and caffeine comedication in combinations with phenobarbital.     

A transient retardation of early postnatal growth in drug-exposed children of epileptic mothers

Increase of length and weight during the first 6 months of life, and height at 1 and 5.5 years of age were investigated in 132 children of epileptic mothers (the study group) and 103 control children born after 37 completed gestational weeks. One hundred and seventeen children had been exposed to antiepileptic drugs in utero: 48 to phenytoin monotherapy, 16 to carbamazepine monotherapy, 24 to barbiturates (23 in combination with other drugs), 27 to drug combinations including phenytoin and/or carbamazepine but not barbiturates, and 2 to other drugs. There was no evidence of intrauterine drug exposure causing prenatal growth retardation. The mean length increment in the first postnatal month was significantly smaller in the drug-exposed children than in the non-exposed study children or controls. The drug-exposed children also gained significantly less weight during the first postnatal month than non-exposed study group children. A normal growth rate was already resumed in the drug-exposed group in the second postnatal month. Sedative drug effects on the neonate probably partly explain the transient weight lag, especially in the barbiturate-exposed subgroup. The marked delay in length gain suggests that a hormonal mechanism, perhaps a reversible suppression of thyroid function, might also be involved. The transient growth retardation was not associated with an excess of minor anomalies or impaired intelligence at 5.5 years of age. As only 1 drug-exposed child had persistent postnatal growth deficiency combined with other signs suggesting a prenatal disorder, the risk of teratogenic growth deficiency caused by antiepileptic drug exposure seems to be very low.     

Pharmacokinetics and drug interactions of eslicarbazepine acetate

Eslicarbazepine acetate (ESL) is a novel once-daily antiepileptic drug (AED) approved in Europe since 2009 that was found to be efficacious and well tolerated in a phase III clinical program in adult patients with partial onset seizures previously not controlled with treatment with one to three AEDs, including carbamazepine (CBZ). ESL shares with CBZ and oxcarbazepine (OXC) the dibenzazepine nucleus bearing the 5-carboxamide substitute, but is structurally different at the 10,11 position. This molecular variation results in differences in metabolism, preventing the formation of toxic epoxide metabolites such as carbamazepine-10,11-epoxide. Unlike OXC, which is metabolized to both eslicarbazepine and (R)-licarbazepine, ESL is extensively converted to eslicarbazepine. The systemic exposure to eslicarbazepine after ESL oral administration is approximately 94% of the parent dose, with minimal exposure to (R)-licarbazepine and OXC. After ESL oral administration, the effective half-life (t(1/2,eff) ) of eslicarbazepine was 20-24 h, which is approximately two times longer than its terminal half-life (t(1/2)). At clinically relevant doses (400-1,600 mg/day) ESL has linear pharmacokinetics (PK) with no effects of gender or moderate liver impairment. However, because eslicarbazepine is eliminated primarily (66%) by renal excretion, dose adjustment is recommended for patients with renal impairment. Eslicarbazepine clearance is induced by phenobarbital, phenytoin, and CBZ and it dose-dependently decreases plasma exposure of oral contraceptive and simvastatin.     

The influence of cimetidine on single-dose carbamazepine pharmacokinetics

The purpose of this study was to evaluate the influence of cimetidine on carbamazepine pharmacokinetics in healthy adults, since carbamazepine toxicity in a patient has been attributed to an interaction with cimetidine and in vitro and in vivo studies in rats have shown that cimetidine inhibits carbamazepine metabolism. Eight healthy volunteers received a single 600-mg oral dose of carbamazepine on two occasions, separated by 1 month. In a randomized crossover sequence, cimetidine 1,200 mg/day or placebo was taken for 48 h before and continuing for 7 days after each carbamazepine dose. Plasma concentrations of carbamazepine and carbamazepine-10,11-epoxide and urine concentrations of carbamazepine, the 10,11-epoxide, and the transdiol metabolite were measured in samples collected for 154 h following each carbamazepine dose. Cimetidine treatment was associated with increases of 26 and 18% in carbamazepine area under the concentration-time curve (AUC) and elimination half-life, respectively. There was also an increase in carbamazepine-10,11-epoxide AUC (27%) and t 1/2 (12%) during cimetidine treatment. There was no difference in the ratio of the 10,11-epoxide to the carbamazepine AUC between treatments. The urinary excretion (expressed as molar percentage of the administered dose) of carbamazepine, 10,11-epoxide, and transdiol metabolite all increased with cimetidine. Although cimetidine appears to inhibit carbamazepine elimination based on the increased elimination half-life, the effect must be on carbamazepine metabolic pathways that we could not measure and that account for greater than 80% of the administered dose. The clinical significance of this interaction should be verified under steady-state conditions when carbamazepine autoinduction is present.     

CORRELATION BETWEEN PLASMA CARBAMAZEPINE-10,11-EPOXIDE CONCENTRATION AND DRUG SIDE-EFFECTS IN CHILDREN WITH EPILEPSY

Ninety children with epilepsy were treated with carbamazepine (CBZ) alone or with other anticonvulsant drugs. Side-effects were noted in 14 patients. When 25 patients treated with CBZ alone (group 1) were compared with 27 on CBZ and sodium valproate (group 2) and with 38 on CBZ and one or more other anticonvulsants (group 3), the incidence of side-effects was two in group 1 (of whom one patient had a toxic plasma level of CBZ), but 12 in groups 2 and 3 combined. In all but three of the 14 patients with side-effects, plasma levels of CBZ were within the 'therapeutic range'. A significant difference was found between the carbamazepine-10,11-epoxide (CBZ-10,11-EPOX) levels in plasma and CBZ-10,11-EPOX/CBZ ratio in patients with and without side-effects. For five patients on CBZ and other drugs, changes in treatment resulted in changes in side-effects, and also in CBZ-10,11-EPOX levels. Three of these patients showed an interaction between CBZ and sodium valproate, with a correlation between plasma CBZ-10,11-EPOX and side-effects when either drug was introduced or withdrawn, the plasma levels of CBZ itself and of sodium valproate being within the 'therapeutic range'.     

Kinetics of penetration of common antiepileptic drugs into cerebrospinal fluid

The rate of entry of common antiepileptic drugs and some active metabolites into cerebrospinal fluid (CSF) was studied in anesthetized dogs from which blood and CSF samples were withdrawn at short intervals. Diazepam, its active metabolites desmethyldiazepam and oxazepam, clonazepam, and ethosuximide entered the CSF very rapidly with mean half-times to equilibrium between 3 and 7 min. Valproic acid, phenytoin, phenobarbital, and carbamazepine went in more slowly, but mean penetration half-times were still only 12-18 min. Primidone, its metabolite phenylethylmalondiamide , and the active metabolite of carbamazepine, i.e., carbamazepine-10,11-epoxide, passed into CSF considerably slower, with half-times of 40-50 min. In order to evaluate to what extent physicochemical properties determine the penetration rates of antiepileptic drugs into the CSF, three factors were examined: the degree of ionization of the respective drugs at physiologic pH, the plasma protein binding, and the lipid-solubility, measured by organic solvent/buffer distribution ratios. Ionization was not considered as a rate-limiting factor, because all compounds except valproic acid were highly non-ionized at pH 7.4. No correlation was found between penetration rates and plasma protein binding, but at equilibrium, the ratio between CSF and total plasma concentrations was almost equal to the free fraction of drug in plasma. A significant correlation was found between penetration rate and the benzene/buffer distribution ratio of antiepileptic drugs, which indicates that the lipid-solubility, rather than the protein binding or the degree of ionization, plays the major role in determining the differences in rate of entry of these drugs.(ABSTRACT TRUNCATED AT 250 WORDS)     

EEG changes in patients during the introduction of carbamazepine.

This study evaluates the EEG changes during the standardized introduction of carbamazepine in 16 previously untreated neurological patients and their relationship to serum levels of carbamazepine and carbamazepine-10,11-epoxide. Therapy was started with a dosage of 400 mg carbamazepine b.i.d. and remained unchanged during the whole study period of 35 days. Frequency analysis of serial EEG records was performed by Fast Fourier Transformation. In comparison to the pretreatment period (1) the mean values of the total power and relative powers of the theta and delta bands increased and (2) the mean values of the relative power of the alpha band and the center frequency decreased. These changes were already established 3 days after the beginning of the treatment and remained constant during the observation period. There were marked interindividual differences. (3) There was no statistically significant correlation between serum levels of carbamazepine or carbamazepine-10,11-epoxide and the EEG parameters. Our results demonstrate that the degree of EEG change primarily reflects individual susceptibility to carbamazepine and its metabolite during the early stage of carbamazepine exposure and is not dose related.     

EEG changes in patients during the introduction of carbamazepine

This study evaluates the EEG changes during the standardized introduction of carbamazepine in 16 previously untreated neurological patients and their relationship to serum levels of carbamazepine and carbamazepine-10,11-epoxide. Therapy was started with a dosage of 400 mg carbamazepine b.i.d. and remained unchanged during the whole study period of 35 days. Frequency analysis of serial EEG records was performed by Fast Fourier Transformation. In comparison to the pretreatment period (1) the mean values of the total power and relative powers of the theta and delta bands increased and (2) the mean values of the relative power of the alpha band and the center frequency decreased. These changes were already established 3 days after the beginning of the treatment and remained constant during the observation period. There were marked interindividual differences. (3) There was no statistically significant correlation between serum levels of carbamazepine or carbamazepine-10,11-epoxide and the EEG parameters. Our results demonstrate that the degree of EEG change primarily reflects individual susceptibility to carbamazepine and its metabolite during the early stage of carbamazepine exposure and is not dose related.     

ALTERED RATIO OF CARBAMAZEPINE-10,11-EPOXIDE/CARBAMAZEPINE IN PLASMA OF CHILDREN: EVIDENCE OF ANTICONVULSANT DRUG INTERACTION

A method of measuring carbamazepine-10,11-epoxide (CBZ-10,11-EPOX) has been developed and used to monitor plasma concentrations in children suffering from various forms of epilepsy. Children stabilised on standard doses of CBZ alone showed a ratio of CBZ-10,11-EPOX/CBZ of 18.92 +/- 8.08, expressed as a percentage of the CBZ concentration, while those on multiple-drug therapy (with the exception of benzodiazepines and phenobarbitone) showed both increased values of CBZ-10,11-EPOX/CBZ ratio and increased absolute concentrations of CBZ-10,11-EPOX in plasma. These changes correlated with clinical side-effects which could not be attributed to CBZ itself or to the other drugs administered concurrently.     

Influence of levetiracetam on the anticonvulsant efficacy of conventional antiepileptic drugs against audiogenic seizures in DBA/2 mice

Levetiracetam (LEV, [S]-alpha-ethyl-2-oxo-1-pyrrolidine acetamide) is a new antiepileptic that has been used as adjunctive therapy to treat patients with intractable epilepsy. Systemic administration of levetiracetam (2.5-30 mg/kg, intraperitoneally (i.p.)) was able to produce a dose-dependent decrease in DBA/2 audiogenic seizure severity score. In combination with conventional antiepileptic drugs, levetiracetam, 5mg/kg, i.p., which per se did not significantly affect the occurrence of audiogenic seizures in DBA/2 mice, potentiated the anticonvulsant activity of some antiepileptic drugs studied against sound-induced seizures in DBA/2 mice. The degree of potentiation induced by levetiracetam was greater, approximately twice, for carbamazepine, diazepam, felbamate, topiramate, gabapentin, and valproate, less for lamotrigine, phenobarbital and phenytoin. This increase was associated with a comparable impairment in motor activity; however, the therapeutic index of combined treatment of antiepileptic drugs with levetiracetam was more favourable than the combination with saline with the exception of lamotrigine, phenytoin and phenobarbital. Since levetiracetam did not significantly influence the total and free plasma and the brain levels of antiepileptics studied. In addition, levetiracetam did not significantly affect the hypothermic effects of the anticonvulsants tested. In conclusion, levetiracetam showed an additive anticonvulsant effect when administered in combination with some classical anticonvulsants, most notably carbamazepine, diazepam, felbamate, gabapentin, topiramate and valproate, implicating a possible therapeutic relevance of such drug combinations.     

Phenobarbitone, phenytoin, carbamazepine, or sodium valproate for newly diagnosed adult epilepsy: a randomised comparative monotherapy trial.

Recent studies have shown that most newly diagnosed epileptic patients can be satisfactorily treated with a single antiepileptic drug. We therefore undertook a prospective randomised pragmatic trial of the comparative efficacy and toxicity of four major antiepileptic drugs, utilised as monotherapy in newly diagnosed epileptic patients. Between 1981 and 1987 243 adult patients aged 16 years or over, newly referred to two district general hospitals with a minimum of two previously untreated tonic-clonic or partial with or without secondary generalised seizures were randomly allocated to treatment with phenobarbitone, phenytoin, carbamazepine, or sodium valproate. The protocol was designed to conform with standard clinical practice. Efficacy was assessed by time to first seizure after the start of treatment and time to enter one year remission. The overall outcome with all of the four drugs was good with 27% remaining seizure free and 75% entering one year of remission by three years of follow up. No significant differences between the four drugs were found for either measure of efficacy at one, two, or three years of follow up. The overall incidence of unacceptable side effects, necessitating withdrawal of the randomised drug, was 10%. For the individual drugs phenobarbitone (22%) was more likely to be withdrawn than phenytoin (3%), carbamazepine (11%), and sodium valproate (5%). In patients with newly diagnosed tonic-clonic or partial with or without secondary generalised seizures, the choice of drug will be more influenced by considerations of toxicity and costs.     

Influence of N-hydroxymethyl-p-isopropoxyphenylsuccinimide on the anticonvulsant action of different classical antiepileptic drugs in the mouse maximal electroshock-induced seizure model

Experimental epileptology is mainly focused on searching for some active compounds suppressing seizures that could become efficacious antiepileptic drugs. Accumulating evidence indicates that succinimide derivatives would be good candidates for novel antiepileptic drugs. Therefore, the aim of this study was to determine the effects of N-hydroxymethyl-p-isopropoxyphenyl-succinimide (HMIPPS) on the protective action of four classical antiepileptic drugs (carbamazepine, phenobarbital, phenytoin and valproate) in the maximal electroshock-induced seizure test in mice. Tonic hind limb extension (seizure activity) was evoked in adult male albino Swiss mice by a current (sine-wave, 25 mA, 500 V, 50 Hz, 0.2s stimulus duration) delivered via auricular electrodes. Acute adverse-effect profiles with respect to motor performance, long-term memory and skeletal muscular strength were measured along with total brain antiepileptic drug concentrations. Results indicate that HMIPPS administered intraperitoneally at 100mg/kg significantly elevated the threshold for electroconvulsions in mice (P<0.05). HMIPPS at doses of 12.5, 25 and 50mg/kg had no impact on the threshold for electroconvulsions in mice. Moreover, HMIPPS (50mg/kg) significantly enhanced the anticonvulsant activity of phenobarbital and valproate in the mouse maximal electroshock-induced seizure model by reducing their median effective doses (ED(50) values) from 23.25mg/kg to 16.82 mg/kg (P<0.01; for phenobarbital) and from 259.3mg/kg to 189.7 mg/kg (P<0.001; for valproate), respectively. In contrast, HMIPPS (50mg/kg) had no impact on the protective action of carbamazepine or phenytoin in the maximal electroshock seizure test in mice. HMIPPS (25mg/kg) significantly potentiated the anticonvulsant action of valproate by reducing its ED(50) value from 259.3mg/kg to 210.6 mg/kg (P>0.05), but not that of phenobarbital, phenytoin and carbamazepine in the mouse maximal electroshock-induced seizure model. Pharmacokinetic experiments revealed that HMIPPS did not alter total brain concentrations of phenobarbital or valproate in mice. Moreover, none of the examined combinations of HMIPPS (50mg/kg) with carbamazepine, phenobarbital, phenytoin and valproate (at their ED(50) values from the maximal electroshock-induced seizure test) affected motor coordination in the chimney test, long-term memory in the passive avoidance task, and muscular strength in the grip-strength test in mice, indicating no possible acute adverse effects in animals. In conclusion, the enhanced anticonvulsant action of phenobarbital and valproate by HMIPPS in the mouse maximal electroshock-induced seizure model, lack of pharmacokinetic interactions and no potential acute adverse effects make the combinations of HMIPPS with phenobarbital and valproate worthy of consideration for further experimental and clinical studies. The combinations of HMIPPS with carbamazepine and phenytoin are neutral from a preclinical viewpoint.     

Serum hormones in male epileptic patients receiving anticonvulsant medication

Circulating sex and thyroid hormones, as well as the pituitary function, were assessed in 63 male patients with epilepsy receiving either a single medication of carbamazepine, phenytoin, or valproate or a combination of carbamazepine plus phenytoin or carbamazepine plus valproate. All therapeutic regimens, including carbamazepine and/or phenytoin were associated with low levels of circulating thyroxine (T4), free thyroxine (FT4), and dehydroepiandrosterone sulfate, and with low values for the free androgen index, and phenytoin and carbamazepine plus phenytoin were associated with high serum concentrations of sex hormone-binding globulin. These hormone parameters were unaffected by valproate monotherapy. It seems probable that accelerated hormone metabolism is responsible for the hormonal changes found in patients treated with carbamazepine and/or phenytoin. However, every drug regimen studied also had depressant and/or stimulatory effects on the function of the hypothalamic-pituitary axis. The diverse endocrine effects of different antiepileptic drug regimens should be considered when starting antiepileptic drug therapy.     

Congenital malformations due to antiepileptic drugs

To identify the major risk factors for the increased incidence of congenital malformations in offspring of mothers being treated for epilepsy with antiepileptic drugs (AEDs) during pregnancy and, to determine the relative teratogenic risk of AEDs, we prospectively analyzed 983 offspring born in Japan, Italy, and Canada. The incidence of congenital malformations in offspring without drug exposure was 3.1%, versus an incidence with drug exposure of 9.0%. The highest incidence in offspring exposed to a single AED occurred with primidone (PRM; 14.3%), which was followed by valproate (VPA; 11.1%), phenytoin (PHT; 9.1%), carbamazepine (CBZ; 5.7%), and phenobarbital (PB; 5.1%). The VPA dose and level positively correlated with the incidence of malformations. This study first determined a cut-off value of VPA dose and level at 1000 mg/day and 70 microg/ml, respectively, to avoid the occurrence of malformations. The incidence of malformations increases as the number of drugs increases, and as the total daily dose increases. Specific combinations of AEDs such as VPA + CBZ and PHT + PRM + PB produced a higher incidence of congenital malformations. The incidence of malformations was not associated with any background factors studied except for the presence of malformations in siblings. These results indicate that the increased incidence of congenital malformations was caused primarily by AEDs, suggesting that malformations can be prevented by improvements in drug regimen, and by avoiding polypharmacy and high levels of VPA (more than 70 microg/ml) in the treatment of epileptic women of childbearimg age.     

Is There an Association between Maternal Carbamazepine Use during Pregnancy and Eye Malformations in the Child?

PURPOSE: To check for an association between carbamazepine (CBZ) use by the mother during pregnancy and congenital eye malformations (i.e., anophthalmia, microphthalmia, and coloboma) in the child, as suggested by Sutcliffe et al. (1998), who reported four cases. METHODS: We checked all the cases with these eye malformations for CBZ use by the mother in the EUROCAT Northern Netherlands dataset, which registers infants with congenital malformations and records possible teratogenic exposures (including medication taken by the mother). We also reviewed 13 studies in the literature. RESULTS: The EUROCAT dataset recorded 77 cases of anophthalmia, microphthalmia, or coloboma, but none with prenatal exposure to CBZ. Prenatal CBZ exposure was recorded in seven other cases without congenital eye malformation. Large studies in the literature on the teratogenic effects of CBZ (and other antiepileptic drugs), including data from the MADRE database, revealed no association between these congenital eye malformations and prenatal CBZ exposure. One case reported bilateral anophthalmia and other congenital anomalies after prenatal exposure to CBZ in combination with vigabatrin and dexamethasone. CONCLUSIONS: Our data do not support Sutcliffe's suggestion that prenatal CBZ exposure may result in congenital eye malformations. However, despite the large population represented, both the low birth prevalence of these congenital eye malformations and the low prevalence of CBZ exposure during pregnancy make it difficult to exclude an increased relative risk. The many large prospective and retrospective studies in the literature seem to agree with our findings, although there is still uncertainty about the teratogenic effect of CBZ in polytherapy.