Extended low-dose dexamethasone suppression test for diagnosis of atypical Cushing's syndrome in dogs.

The purpose of this study was to evaluate extension of the low-dose dexamethasone suppression (LDDS) test from 8 h to 12 h to detect possible hypercortisolemia associated with atypical hyperadrenocorticism (AHAC). Twelve client-owned dogs were enrolled in the study: 6 healthy dogs (group 1) and 6 dogs with suspected AHAC (group 2). Baseline EDTA plasma samples were collected for endogenous ACTH determination using an immunoradiometric assay. Serum samples were collected before and at 4, 8, 10, and 12 h post-administration of 0.01 mg/kg dexamethasone IV for cortisol concentration determination via chemiluminescent assay. Mean endogenous ACTH concentration did not differ between groups (group 1: 22.4 pg/mL, group 2: 20.0 pg/mL; P > 0.2). Mean baseline cortisol concentration also did not differ significantly between groups (group 1: 3.03 µg/dL, group 2: 4.95 µg/dL; P > 0.2) nor was there any difference in mean cortisol concentration between the groups at any other time point (P > 0.2). The cortisol concentration from 1 dog in group 2 suppressed to 0.7 µg/dL at 8 h but increased to 1.5 µg/dL at 10 h and 3.7 µg/dL at 12 h post-dexamethasone. Based on results of this study, use of an extended LDDS test could not differentiate between healthy dogs and dogs with AHAC. Diagnosis of AHAC should continue to be based on prior established criteria until new testing has been identified.

Progesterone vs placebo therapy for women with epilepsy: A randomized clinical trial.

OBJECTIVE: To assess progesterone treatment of intractable seizures in women with partial epilepsy. METHODS: This randomized, double-blind, placebo-controlled, phase III, multicenter, clinical trial compared the efficacy and safety of adjunctive cyclic natural progesterone therapy vs placebo treatment of intractable seizures in 294 subjects randomized 2:1 to progesterone or placebo, stratified by catamenial and noncatamenial status. It compared treatments on proportions of ≥50% responders and changes in seizure frequency from 3 baseline to 3 treated menstrual cycles. RESULTS: There was no significant difference in proportions of responders between progesterone and placebo in the catamenial and noncatamenial strata. Prespecified secondary analysis showed that the level of perimenstrual seizure exacerbation (C1 level) was a significant predictor of responders for progesterone but not placebo. With increasing C1 levels, responders increased from 21% to 57% with progesterone vs 19% to 20% with placebo. Reductions in seizure frequency correlated with increasing C1 levels for progesterone but not placebo, progressing from 26% to 71% for progesterone vs 25% to 26% for placebo. A prespecified clinically important separation between progesterone and placebo responders (37.8% vs 11.1%; p = 0.037) was realized among 21.4% of women who had C1 level ≥3. CONCLUSION: There was no difference in the primary outcome of ≥50% responder rates between progesterone vs placebo for catamenial or noncatamenial groups. Post hoc findings suggest that the level of perimenstrual seizure exacerbation is a significant predictor of responder rate with progesterone and that progesterone may provide clinically important benefit for a subset of women with perimenstrually exacerbated seizures. CLASSIFICATION OF EVIDENCE: This study provides Class III evidence that cyclic progesterone is ineffective in women with intractable partial epilepsy. Post hoc analysis identified a subset of women with higher levels of perimenstrual seizure exacerbation that were responsive to treatment.

Laterality and location influence catamenial seizure expression in women with partial epilepsy.

OBJECTIVE: The temporal distribution of seizures in women with localization-related epilepsy occurs periodically according to a model "clock" with the peak phase of occurrence corresponding to menstrual onset. The location and laterality of the epileptic lesion as well as patient age may affect periodicity. METHODS: Baseline data from seizure and menstrual diaries of approximately 3 months duration were obtained from 100 women enrolled in a trial of hormonal therapy for localization-related epilepsy. Durations of individual cycles were normalized to a common menstrual phase and period. Normalized data were then combined to create distributions evaluated by localization (lobar: temporal [TL], extratemporal [XL], multifocal [MF], unknown), lateralization (left, right, bilateral, unknown), and age. Distributions were evaluated with analysis of variance (ANOVA) and curve-fitted by nonlinear least squares cosinor analysis. RESULTS: A total of 71 patients had TL (left = 25, right = 29, bilateral = 17), 10 XL, 14 MF, and 5 unknown seizure foci. XL and MF seizures occurred randomly across the 28-day cycle. TL seizures (left = 875, right = 706) occurred nonrandomly (ANOVA p = 0.0003) and cyclically with peak occurrence near onset of menses ([value +/- SD] peak = 1.6 +/- 2.3 days, period = 27.0 days). Left-side TL seizures peaked cyclically at onset of menses (ANOVA p = 0.04, peak = 0.0 +/- 3.0 days, period = 30 days); right-side TL seizures occurred randomly. Age did not have a cyclical effect. Women below the median age had a significantly higher seizure rate than those above the median age. CONCLUSION: Circalunar rhythms of seizures in women, and therefore, possibly strategies of hormonal treatments of catamenial epilepsy, vary with the neuroanatomic substrate of the seizure focus.

Valproate and lamotrigine level variation with menstrual cycle phase and oral contraceptive use.

OBJECTIVE: To determine whether 1) combined oral contraceptive (COC) use affects serum levels of valproate (VPA) as well as lamotrigine (LTG) and 2) the naturally occurring high (mid-luteal) and low (early-mid follicular) reproductive steroid level phases of the menstrual cycle might affect antiepileptic drug levels as well. METHODS: This investigation compared serum antiepileptic drug levels at two timepoints during a single menstrual cycle in four groups of women with epilepsy: 12 on VPA, 12 on VPA plus COC (VPA-COC), 12 on LTG, and 12 on LTG plus COC (LTG-COC). RESULTS: Both VPA and LTG levels were lower (p < 0.01) on active COC than on inactive pill with median declines of 23.4% for the VPA-COC group and 32.6% for the LTG-COC group. Serum LTG levels showed a notable but not significant 31.3% median decline during the mid-luteal phase compared to the early-mid follicular phase in the non-COC group. The non-COC valproate group showed the least change of any group between the two measured timepoints with a decline of 8.3% (p = NS). CONCLUSIONS: The findings suggest that valproate (VPA), like lamotrigine (LTG), has substantially and significantly lower serum levels while women take active combined oral contraceptives as compared to inactive pills. Larger sample sizes will be required to determine whether LTG levels may drop significantly also during the luteal (high steroid) phase of natural menstrual cycles and whether VPA levels may show greater stability in levels across the phases of the menstrual cycle.