Kerry L. Flynn

Predictors of ovulatory failure in women with epilepsy.

Women with epilepsy (WWE) are at increased risk for reproductive disorders. This study was designed to evaluate whether WWE are more likely to have anovulatory cycles and to assess the relative association of the epilepsy syndrome category and antiepileptic drugs (AEDs) to ovulatory dysfunction. Subjects included women aged 18 to 40 years not receiving hormones. Women without epilepsy (23 controls) and women with localization‐related epilepsy (LRE, n = 59) or idiopathic (primary) generalized epilepsy (IGE, n = 35) receiving either a cytochrome P450 enzyme (cP450) inducing AED (carbamazepine, phenytoin, and phenobarbital), a cP450 inhibiting AED (valproate), or an AED that does not alter cP450 enzymes (lamotrigine and gabapentin) in monotherapy for 6 months or more were followed for three menstrual cycles. A transvaginal ovarian ultrasound was obtained. Endocrine and metabolic variables were measured and luteinizing hormone sampled over 8 hours on days 2 to 5 of one cycle. Anovulatory cycles occurred in 10.9% of cycles in controls, 14.3% of cycles with LRE, and 27.1% of cycles with IGE. Of women using valproate currently or within the preceding 3 years, 38.1% had at least one anovulatory cycle in contrast with 10.7% of women not using valproate within the preceding 3 years. Predictors of ovulatory failure included IGE syndrome, use of valproate currently or within 3 years, high free testosterone, and fewer numbers of luteinizing hormone pulses, but not polycystic‐appearing ovaries. WWE are more likely to experience anovulatory menstrual cycles and the effects of epilepsy syndrome, and AED therapy may be additive. Women with IGE receiving valproate were at highest risk for anovulatory cycles, polycystic‐appearing ovaries, elevated body mass index, and hyperandrogynism. WWE with anovulatory cycles may have no other signs of reproductive dysfunction. Therefore, clinicians must be alert to this potential complication of epilepsy.

Sexual dysfunction, sex steroid hormone abnormalities, and depression in women with epilepsy treated with antiepileptic drugs.

Women with epilepsy are believed to be at risk for sexual dysfunction. Disorders of sexual desire and sexual arousal, including dyspareunia, vaginismus, and lack of lubrication, affect an estimated 30 to 60% of women with epilepsy. In this study, 57 reproductive-aged women with either localization related (LRE) or primary generalized epilepsy (PGE) on antiepileptic drug (AED) monotherapy and 17 nonepileptic controls completed questionnaires examining sexual experience, arousability, anxiety, and symptoms, as well as an inventory of depression. An endocrine assessment was performed during the early follicular phase of the menstrual cycle. Sexual dysfunction was more common in women with LRE, in women receiving phenytoin, in women with low levels of estradiol and dehydroepiandrosterone sulfate, and in women with self-reported symptoms of mild depression. The mechanisms of sexual dysfunction in women with epilepsy are multifactorial, but AED choice appears to be one cause that is modifiable.

Reproductive Dysfunction in Women With Epilepsy: Antiepileptic Drug Effects on Sex-Steroid Hormones

Women with epilepsy are at risk for reproductive health dysfunction. Sex-steroid hormone abnormalities have been reported in women with epilepsy, but it has been difficult to determine whether these abnormalities are due to epilepsy-related hypothalamic-pituitary axis dysfunction, or to pharmacokinetic actions of antiepileptic drugs (AEDs). Sex-steroid hormones were evaluated in 84 reproductive-aged women with epilepsy receiving an AED in monotherapy, and in 20 nonepileptic controls. Estrone, free testosterone, and androstenedione were significantly lower in subjects receiving enzyme-inducing AEDs than in nonepileptic controls. Free testosterone was significantly elevated in subjects receiving valproate compared to nonepileptic controls. Subjects with epilepsy receiving gabapentin or lamotrigine were no different from the nonepileptic controls in any of the endocrine variables. Subjects with epilepsy who are receiving AEDs that alter cytochrome P450 enzymes are at risk for significant abnormalities in sex-steroid hormones. In contrast, subjects receiving AEDs that do not alter cytochrome P450 enzymes show no differences in sex-steroid hormones compared with nonepileptic controls. With new AEDs available that do not alter cytochrome P450 enzymes, physician selection of therapy should consider not only seizure control, but also potential effects on reproductive physiology.