Epilepsy Clinical Trial
Official title:
Phase 3: Metabolism of Lamotrigine During Treatment With Oral Contraceptives
The present study evaluates the effect of oral contraceptives on lamotrigine plasma concentrations in a double blind, placebo controlled, cross-over study in patients with epilepsy.
Lamotrigine is widely used as an antiepileptic drug in the treatment of newly onset as well
as refractory epilepsy (1;2). Lamotrigine is unique among the antiepileptic drug since the
major route (76%) of elimination is conjugation with glucuronic acid (glucuronidation) (3).
This conjugation reaction is catalyzed by the uridine 5'-diphosphate
(UDP)-glucuronosyltransferases (UGTs); of which the isoform UGT1A4 probably is the major
route of metabolism in humans (3). The pathway is inhibited by valproate and induced by
other anticonvulsants (3), and explains the effect of these drugs on lamotrgine metabolism
(4). Other drugs that are metabolized via direct glucoronidation may interfere with the
metabolism of lamotrigine e.g. acetaminophen (5). Estrogeneous substrates are metabolized
via glucuronidation (6-8) and may potentially interact with the metabolism of lamotrigine.
In the development of lamotrigine for use in epilepsy patients the effect on the oral
contraceptive pill was studied. In contrast to other commonly used antiepileptic drugs e.g.
carbamazepine and phenytoin(9), lamotrigine did not significantly influence the constituents
of the oral contraceptive pill (10-12). In addition, it was initially assumed from
population pharmacokinetic studies, that oral contraceptives did not influence the
metabolism of lamotrigine (13).However, recent retrospective studies indicate that oral
contraceptives may increase the metabolism of lamotrigine resulting in a significant
decrease in plasma concentration of lamotrigine when given with oral contraceptives (14;15).
This effect is probably related to the ethinyl estradiol content of the combined
contracetive pill and no the progesterone content (16).
To confirm and further extend these findings, the present study evaluates the effect of oral
contraceptives on lamotrigine plasma concentrations in a double blind, placebo controlled,
cross-over study in patients with epilepsy.
Reference List
1. French JA, Kanner AM, Bautista J, Abou-Khalil B, Browne T, Harden CL et al. Efficacy
and Tolerability of the New Antiepileptic Drugs, II: Treatment of Refractory Epilepsy:
Report of the TTA and QSS Subcommittees of the American Academy of Neurology and the
American Epilepsy Society. Epilepsia 2004; 45(5):410-423.
2. French JA, Kanner AM, Bautista J, Abou-Khalil B, Browne T, Harden CL et al. Efficacy
and Tolerability of the New Antiepileptic Drugs, I: Treatment of New-Onset Epilepsy:
Report of the TTA and QSS Subcommittees of the American Academy of Neurology and the
American Epilepsy Society. Epilepsia 2004; 45(5):401-409.
3. Dickins M, Chen C. Lamotrigine. Chemistry, Biotransformation and Pharmacokinetics. In:
Levy RH, Mattson RH, Meldrum BS, Perucca E, editors. Antiepileptic Drugs. Philidelphia:
Lippincott, Williams & Wilkins, 2002: 370-379.
4. Patsalos PN, Perucca E. Clinically important drug interactions in epilepsy: general
features and interactions between antiepileptic drugs. Lancet Neurol 2003;
2(6):347-356.
5. Depot M, Powell JR, Messenheimer JAJ, Cloutier G, Dalton MJ. Kinetic effects of
multiple oral doses of acetaminophen on a single oral dose of lamotrigine. Clin
Pharmacol Ther 1990; 48(4):346-355.
6. Tephly TR, Green MD. UDP-Glucuronosyltransferases. In: Levy RH, Thummel KE, Trager W,
Hansten PD, Eichelbaum M, editors. Metabolic Drug Interactions. Philidelphia:
Lippincott, Williams & Wilkins, 2000: 161-174.
7. Shipkova M, Wieland E. Glucuronidation in therapeutic drug monitoring. Clin Chim Acta
2005; 358(1-2):2-23.
8. Ebner T, Remmel RP, Burchell B. Human bilirubin UDP-glucuronosyltransferase catalyzes
the glucuronidation of ethinylestradiol. Mol Pharmacol 1993; 43(4):649-654.
9. Patsalos PN, Perucca E. Clinically important drug interactions in epilepsy:
interactions between antiepileptic drugs and other drugs. Lancet Neurol 2003;
2(8):473-481.
10. Crawford P. Interactions between antiepileptic drugs and hormonal contraception. CNS
Drugs 2002 ;16 (4 ):263 -72 2002; 16(4):263-272.
11. Doose DR, Wang SS, Padmanabhan M, Schwabe S, Jacobs D, Bialer M. Effect of topiramate
or carbamazepine on the pharmacokinetics of an oral contraceptive containing
norethindrone and ethinyl estradiol in healthy obese and nonobese female subjects.
Epilepsia 2003 Apr ;44 (4 ):540 -9 44(4):540-549.
12. Holdish T, Whiteman P, Orme M, Back D, Ward S. Effect of lamotrigine on the
pharmacology of the combined oral contraceptive pill. Epilepsia 32[suppl. 1], s96.
1991.
13. Hussein Z, Posner J. Population pharmacokinetics of lamotrigine monotherapy in patients
with epilepsy: retrospective analysis of routine monitoring data. Br J Clin Pharmacol
1997; 43(5):457-465.
14. Sabers A, Ohman I, Christensen J, Tomson T. Oral contraceptives reduce lamotrigine
plasma levels. Neurology 2003 Aug 26 ;61 (4 ):570 -1 2003; 61(4):570-571.
15. Sabers A, Buchholt JM, ULDALL P, Hansen EL. Lamotrigine plasma levels reduced by oral
contraceptives. Epilepsy Res 2001 Nov ;47 (1 -2 ):151 -4 47(1-2):151-154.
16. Reimers A, Helde G, Brodtkorb E. Ethinyl estradiol, not progestogens, reduces
lamotrigine serum concentrations. Epilepsia 2005; 46(9):1414-1417.
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Allocation: Randomized, Endpoint Classification: Pharmacokinetics Study, Intervention Model: Crossover Assignment, Masking: Double-Blind, Primary Purpose: Treatment
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