Dennis R. Doose scite author profile

Topiramate is a new antiepileptic drug (AED) that has been approved worldwide (in more than 80 countries) for the treatment of various kinds of epilepsy. It is currently being evaluated for its effect in various neurological and psychiatric disorders. The pharmacokinetics of topiramate are characterised by linear pharmacokinetics over the dose range 100-800 mg, low oral clearance (22-36 mL/min), which, in monotherapy, is predominantly through renal excretion (renal clearance 10-20 mL/min), and a long half-life (19-25 hours), which is reduced when coadministered with inducing AEDs such as phenytoin, phenobarbital and carbamazepine. The absolute bioavailability, or oral availability, of topiramate is 81-95% and is not affected by food. Although topiramate is not extensively metabolised when administered in monotherapy (fraction metabolised approximately 20%), its metabolism is induced during polytherapy with carbamazepine and phenytoin, and, consequently, its fraction metabolised increases. During concomitant treatment with topiramate and carbamazepine or phenytoin, the (oral) clearance of topiramate increases 2-fold and its half-life becomes shorter by approximately 50%, which may require topiramate dosage adjustment when phenytoin or carbamazepine therapy is added or discontinued. From a pharmacokinetic standpoint, topiramate is a unique example of a drug that, because of its major renal elimination component, is not subject to drug interaction due to enzyme inhibition, but nevertheless is susceptible to clinically relevant drug interactions due to induction of its metabolism. Unlike old AEDs such as phenytoin and carbamazepine, topiramate is a mild inducer and, currently, the only interaction observed as a result of induction by topiramate is that with ethinylestradiol. Topiramate only increases the oral clearance of ethinylestradiol in an oral contraceptive at high dosages (>200 mg/day). Because of this dose-dependency, possible interactions between topiramate and oral contraceptives should be assessed according to the topiramate dosage utilised. This paper provides a critical review of the pharmacokinetic interactions of topiramate with old and new AEDs, an oral contraceptive, and the CNS-active drugs lithium, haloperidol, amitriptyline, risperidone, sumatriptan, propranolol and dihydroergotamine. At a daily dosage of 200 mg, topiramate exhibited no or little (with lithium, propranolol and the amitriptyline metabolite nortriptyline) pharmacokinetic interactions with these drugs. The results of many of these drug interaction studies with topiramate have not been published before, and are presented and discussed for the first time in this article.

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Single‐Dose Pharmacokinetics and Effect of Food on the Bioavailability of Topiramate, A Novel Antiepileptic Drug

Doose¹,

Walker²,

Gisclon³

et al. 1996

The Journal of Clinical Pharma

120

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Topiramate, a new antiepileptic drug effective in controlling partial-onset seizures, was administered to humans for the first time as single oral doses of 100 mg, 200 mg, 400 mg, 800 mg, and 1,200 mg in a phase I safety and pharmacokinetic study. Model-independent pharmacokinetic data analysis was performed on plasma concentration and renal excretion data for topiramate. Maximum plasma concentrations (Cmax) were observed between 1.4 and 4.3 hours after administration. Mean values for plasma Cmax and area under the concentration-time curve (AUC) increased linearly with dose; however, a greater-than-proportional increase in both parameters was observed, probably due to saturable binding of the drug to erythrocytes. Mean oral clearance (Cl/F) was 22.5 to 36.1 mL/min and mean volume of distribution (Vd/F) was 38.5 to 58.0 L. Approximately 50% of the dose was excreted renally and cumulative urinary excretion increased linearly and proportionally over the 200 mg to 1,200 mg dose range. Elimination half-life (t1/2) values calculated from plasma (21.5 hrs) and urinary data (18.5 hrs) were consistent and independent of dose. Intersubject variability was low for all parameters. Renal clearance was 13.9 mL/min, suggesting that renal tubular reabsorption may be prominently involved in the renal handling of topiramate. The elimination profile of topiramate indicated that longer sampling times are necessary in future studies to more accurately determine the t1/2. Food effect studies indicated a slight reduction in the rate (approximately 10% decrease in mean Cmax and mean tmax approximately 2 hours later) but not the extent of absorption when topiramate was given with food. Topiramate demonstrates a number of favorable pharmacokinetic features, including linear and predictable dose-concentration relationships, excretion mainly as unchanged drug by the kidney, a dose-independent t1/2, low intersubject variability in pharmacokinetic parameters, and lack of clinically significant effect of food on bioavailability.

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Effect of Topiramate or Carbamazepine on the Pharmacokinetics of an Oral Contraceptive Containing Norethindrone and Ethinyl Estradiol in Healthy Obese and Nonobese Female Subjects

et al. 2003

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Summary:Purpose: To study the pharmacokinetics of a combination oral contraceptive (OC) containing norethindrone and ethinyl estradiol during OC monotherapy, concomitant OC and topiramate (TPM) therapy, and concomitant OC and carbamazepine (CBZ) therapy in order to comparatively evaluate the pharmacokinetic interaction, which may cause contraceptive failure.Methods: This randomized, open-label, five-group study included two 28-day cycles. Five groups of female subjects received oral doses of ORTHO-NOVUM 1/35 alone (cycle 1) and then concomitant with TPM or CBZ (cycle 2). The treatment groups were group 1, TPM, 50 mg/day; group 2, TPM, 100 mg/day; group 3, TPM, 200 mg/day; group 4, TPM, 200 mg/day (obese women); and group 5, CBZ, 600 mg/day. Group 4 comprised obese women whose body mass index (BMI) was between 30 and 35 kg/m 2 . The BMI of the remaining four groups was Յ27 kg/m 2 .Results: Coadministration of TPM at daily doses of 50, 100, and 200 mg (nonobese) and 200 mg (obese) nonsignificantly (p > 0.05) changed the mean area under the curve (AUC) of ethinyl estradiol by -12%, +5%, -11%, and -9%, respectively, compared with OC monotherapy. A similar nonsignificant difference was observed with the plasma levels and AUC values of norethindrone (p > 0.05). CBZ (600 mg/day) significantly (p < 0.05) decreased the AUC values of norethindrone and ethinyl estradiol by 58% and 42%, respectively, and increased their respective oral clearance by 69% and 127% (p < 0.05). Because CBZ induces CYP 3A-mediated and glucuronide conjugation metabolic pathways, the significant increase in the oral clearance of ethinyl estradiol and norethindrone was anticipated. Conclusions: TPM, at daily doses of 50-200 mg, does not interact with an OC containing norethindrone and ethinyl estradiol. The lack of the TPM-OC interaction is notable when it is compared with the CBZ-OC interaction.

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Effect of Topiramate on the Pharmacokinetics of an Oral Contraceptive Containing Norethindrone and Ethinyl Estradiol in Patients with Epilepsy

Rosenfeld

Doose²,

Walker³

et al. 1997

Epilepsia

200

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Summary:Purpose: Because enzyme-inducing antiepileptic drugs (AEDs) can affect pharmacokinetics of oral contraceptives and thereby cause contraceptive failure, the potential effect of topiramate, a new AED, on the pharmacokinetics of the combination oral contraceptive norethindrone/ethinyl estradiol was evaluated.Methods: Twelve women receiving stable valproic acid (VPA) monotherapy for epilepsy received a combination norethindrone 1.0 mg/ethinyl estradiol 35-yg tablet daily for 21 days followed by seven daily doses of inert tablets for four 28-day cycles. After a baseline cycle (cycle l), topiramate 100, 200f and 400 mg every 12 h was administered in cycles 2 through 4, respectively. Serial blood samples were obtained on day 20 of each cycle and were analyzed for norethindrone, ethinyl estradiol, and progesterone by using validated radioimmunoassay methods.Results: Compared with cycle 1, none of the norethindrone pharmacokinetic parameters changed significantly in the presence of topiramate, 100-400 mg every 12 h. Individual patient serum progesterone concentrations measured during each cycle were at or close to the limit of quantification with no apparent differences among cycles. However, mean area under the concentration-versus-time curve over the 24-h period (AUC,.,,) values for ethinyl estradiol were 18-30% lower in cycles 2 through 4 compared with cycle 1 (p 0.05 for all pairs), whereas mean oral serum clearance (CL/F) values were 14.7-33.0% higher (p S 0.05 for cycles 2 and 4 vs. cycle 1). Mean time of peak concentration (TmJ values determined during topiramate therapy were not significantly different from those at baseline.Conclusions: When prescribing an oral contraceptive for patients receiving topiramate, clinicians should consider initial therapy with an agent containing 2 3 5 yg of ethinyl estradiol. Key Words: Topiramatearal contraceptives-Anticonvulsants-Pharmacokinetics-Drug interactions-Epilepsy.Hepatic drug-metabolizing, enzyme-inducing AEDs, such as carbamazepine, phenytoin, and barbiturates, are known to inhibit the effectiveness of a number of drugs when administered concurrently. An important example of this type of interaction is the concomitant use of AEDs with estrogen/progestin

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Plasma and whole blood pharmacokinetics of topiramate: the role of carbonic anhydrase

et al. 2005

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Dennis R. Doose

Pharmacokinetic Interactions of Topiramate

Single‐Dose Pharmacokinetics and Effect of Food on the Bioavailability of Topiramate, A Novel Antiepileptic Drug

Effect of Topiramate or Carbamazepine on the Pharmacokinetics of an Oral Contraceptive Containing Norethindrone and Ethinyl Estradiol in Healthy Obese and Nonobese Female Subjects

Effect of Topiramate on the Pharmacokinetics of an Oral Contraceptive Containing Norethindrone and Ethinyl Estradiol in Patients with Epilepsy

Plasma and whole blood pharmacokinetics of topiramate: the role of carbonic anhydrase

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