Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients

R. C. Sachdeo; S. K. Sachdeo; R. H. Levy; A. J. Streeter; F. E. Bishop; K. L. Kunze; G. G. Mather; L. K. Roskos; D. D. Shen; K. E. Thummel; W. F. Trager; C. R. Curtin; Dennis R. Doose; L. G. Gisclon; Meir Bialer

doi:10.1046/j.1528-1157.2002.41701.x

Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients

R. C. Sachdeo, S. K. Sachdeo, R. H. Levy, A. J. Streeter, F. E. Bishop, K. L. Kunze, G. G. Mather, L. K. Roskos, D. D. Shen, K. E. Thummel, W. F. Trager, C. R. Curtin, Dennis R. Doose, L. G. Gisclon, Meir Bialer^*

^*Corresponding author for this work

School of Pharmacy

Research output: Contribution to journal › Article › peer-review

66 Scopus citations

Abstract

Purpose: To evaluate the potential pharmacokinetic interactions between topiramate (TPM) and phenytoin (PHT) in patients with epilepsy by studying their pharmacokinetics (PK) after monotherapy and concomitant TPM/PHT treatment. Methods: Twelve patients with epilepsy stabilized on PHT monotherapy were enrolled in this study, with 10 and seven patients completing the phases with 400 and 800 mg TPM daily doses, respectively. TPM was added at escalating doses, and after stabilization at the highest tolerated TPM dose, PHT doses were tapered. Serial blood and urine samples were collected for PK analysis during the monotherapy phase or the lowest PHT dose after taper and the concomitant TPM/PHT phase. Potential metabolic interaction between PHT and TPM also was studied in vitro in human liver microsomal preparations. Results: In nine of the 12 patients, PHT plasma concentrations remained stable, with a mean (±SD) area under the curve (AUC) ratio (combination therapy/monotherapy) of 1.13 ± 0.17 (range, 0.89-1.23). Three patients had AUC ratios of 1.25, 1.39, and 1.55, respectively, and with the addition of TPM (800, 400, and 400 mg daily, respectively), their peak PHT plasma concentrations increased from 15 to 21 mg/L, 28 to 36 mg/L, and 27 to 41 mg/L, respectively. Human liver microsomal studies with S-mephenytoin showed that TPM partially inhibited CYP2C19 at very high concentrations of 300 μM (11% inhibition) and 900 μM (29% inhibition). Such high plasma concentrations would correspond to doses in humans that are 5 to 15 times higher than the recommended dose (200-400 mg). TPM clearance was approximately twofold higher during concomitant TPM/PHT therapy Conclusions: This study provides evidence that the addition of TPM to PHT generally does not cause clinically significant PK interaction. PHT induces the metabolism of TPM, causing increased TPM clearance, which may require TPM dose adjustments when PHT therapy is added or is discontinued. TPM may affect PHT concentrations in a few patients because of inhibition by TPM of the CYP2C19-mediated minor metabolic pathway of PHT.

Original language	English
Pages (from-to)	691-696
Number of pages	6
Journal	Epilepsia
Volume	43
Issue number	7
DOIs	https://doi.org/10.1046/j.1528-1157.2002.41701.x
State	Published - 2002

Keywords

Antiepileptics
Drug interactions
Epilepsy
Pharmacokinetics
Phenytoin
Topiramate

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10.1046/j.1528-1157.2002.41701.x

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Sachdeo, R. C., Sachdeo, S. K., Levy, R. H., Streeter, A. J., Bishop, F. E., Kunze, K. L., Mather, G. G., Roskos, L. K., Shen, D. D., Thummel, K. E., Trager, W. F., Curtin, C. R., Doose, D. R., Gisclon, L. G., & Bialer, M. (2002). Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients. Epilepsia, 43(7), 691-696. https://doi.org/10.1046/j.1528-1157.2002.41701.x

@article{a76af7af2fd3416a9c0485803bc65aff,

title = "Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients",

abstract = "Purpose: To evaluate the potential pharmacokinetic interactions between topiramate (TPM) and phenytoin (PHT) in patients with epilepsy by studying their pharmacokinetics (PK) after monotherapy and concomitant TPM/PHT treatment. Methods: Twelve patients with epilepsy stabilized on PHT monotherapy were enrolled in this study, with 10 and seven patients completing the phases with 400 and 800 mg TPM daily doses, respectively. TPM was added at escalating doses, and after stabilization at the highest tolerated TPM dose, PHT doses were tapered. Serial blood and urine samples were collected for PK analysis during the monotherapy phase or the lowest PHT dose after taper and the concomitant TPM/PHT phase. Potential metabolic interaction between PHT and TPM also was studied in vitro in human liver microsomal preparations. Results: In nine of the 12 patients, PHT plasma concentrations remained stable, with a mean (±SD) area under the curve (AUC) ratio (combination therapy/monotherapy) of 1.13 ± 0.17 (range, 0.89-1.23). Three patients had AUC ratios of 1.25, 1.39, and 1.55, respectively, and with the addition of TPM (800, 400, and 400 mg daily, respectively), their peak PHT plasma concentrations increased from 15 to 21 mg/L, 28 to 36 mg/L, and 27 to 41 mg/L, respectively. Human liver microsomal studies with S-mephenytoin showed that TPM partially inhibited CYP2C19 at very high concentrations of 300 μM (11% inhibition) and 900 μM (29% inhibition). Such high plasma concentrations would correspond to doses in humans that are 5 to 15 times higher than the recommended dose (200-400 mg). TPM clearance was approximately twofold higher during concomitant TPM/PHT therapy Conclusions: This study provides evidence that the addition of TPM to PHT generally does not cause clinically significant PK interaction. PHT induces the metabolism of TPM, causing increased TPM clearance, which may require TPM dose adjustments when PHT therapy is added or is discontinued. TPM may affect PHT concentrations in a few patients because of inhibition by TPM of the CYP2C19-mediated minor metabolic pathway of PHT.",

keywords = "Antiepileptics, Drug interactions, Epilepsy, Pharmacokinetics, Phenytoin, Topiramate",

author = "Sachdeo, {R. C.} and Sachdeo, {S. K.} and Levy, {R. H.} and Streeter, {A. J.} and Bishop, {F. E.} and Kunze, {K. L.} and Mather, {G. G.} and Roskos, {L. K.} and Shen, {D. D.} and Thummel, {K. E.} and Trager, {W. F.} and Curtin, {C. R.} and Doose, {Dennis R.} and Gisclon, {L. G.} and Meir Bialer",

year = "2002",

doi = "10.1046/j.1528-1157.2002.41701.x",

language = "אנגלית",

volume = "43",

pages = "691--696",

journal = "Epilepsia",

issn = "0013-9580",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "7",

}

Sachdeo, RC, Sachdeo, SK, Levy, RH, Streeter, AJ, Bishop, FE, Kunze, KL, Mather, GG, Roskos, LK, Shen, DD, Thummel, KE, Trager, WF, Curtin, CR, Doose, DR, Gisclon, LG & Bialer, M 2002, 'Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients', Epilepsia, vol. 43, no. 7, pp. 691-696. https://doi.org/10.1046/j.1528-1157.2002.41701.x

TY - JOUR

T1 - Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients

AU - Sachdeo, R. C.

AU - Sachdeo, S. K.

AU - Levy, R. H.

AU - Streeter, A. J.

AU - Bishop, F. E.

AU - Kunze, K. L.

AU - Mather, G. G.

AU - Roskos, L. K.

AU - Shen, D. D.

AU - Thummel, K. E.

AU - Trager, W. F.

AU - Curtin, C. R.

AU - Doose, Dennis R.

AU - Gisclon, L. G.

AU - Bialer, Meir

PY - 2002

Y1 - 2002

N2 - Purpose: To evaluate the potential pharmacokinetic interactions between topiramate (TPM) and phenytoin (PHT) in patients with epilepsy by studying their pharmacokinetics (PK) after monotherapy and concomitant TPM/PHT treatment. Methods: Twelve patients with epilepsy stabilized on PHT monotherapy were enrolled in this study, with 10 and seven patients completing the phases with 400 and 800 mg TPM daily doses, respectively. TPM was added at escalating doses, and after stabilization at the highest tolerated TPM dose, PHT doses were tapered. Serial blood and urine samples were collected for PK analysis during the monotherapy phase or the lowest PHT dose after taper and the concomitant TPM/PHT phase. Potential metabolic interaction between PHT and TPM also was studied in vitro in human liver microsomal preparations. Results: In nine of the 12 patients, PHT plasma concentrations remained stable, with a mean (±SD) area under the curve (AUC) ratio (combination therapy/monotherapy) of 1.13 ± 0.17 (range, 0.89-1.23). Three patients had AUC ratios of 1.25, 1.39, and 1.55, respectively, and with the addition of TPM (800, 400, and 400 mg daily, respectively), their peak PHT plasma concentrations increased from 15 to 21 mg/L, 28 to 36 mg/L, and 27 to 41 mg/L, respectively. Human liver microsomal studies with S-mephenytoin showed that TPM partially inhibited CYP2C19 at very high concentrations of 300 μM (11% inhibition) and 900 μM (29% inhibition). Such high plasma concentrations would correspond to doses in humans that are 5 to 15 times higher than the recommended dose (200-400 mg). TPM clearance was approximately twofold higher during concomitant TPM/PHT therapy Conclusions: This study provides evidence that the addition of TPM to PHT generally does not cause clinically significant PK interaction. PHT induces the metabolism of TPM, causing increased TPM clearance, which may require TPM dose adjustments when PHT therapy is added or is discontinued. TPM may affect PHT concentrations in a few patients because of inhibition by TPM of the CYP2C19-mediated minor metabolic pathway of PHT.

AB - Purpose: To evaluate the potential pharmacokinetic interactions between topiramate (TPM) and phenytoin (PHT) in patients with epilepsy by studying their pharmacokinetics (PK) after monotherapy and concomitant TPM/PHT treatment. Methods: Twelve patients with epilepsy stabilized on PHT monotherapy were enrolled in this study, with 10 and seven patients completing the phases with 400 and 800 mg TPM daily doses, respectively. TPM was added at escalating doses, and after stabilization at the highest tolerated TPM dose, PHT doses were tapered. Serial blood and urine samples were collected for PK analysis during the monotherapy phase or the lowest PHT dose after taper and the concomitant TPM/PHT phase. Potential metabolic interaction between PHT and TPM also was studied in vitro in human liver microsomal preparations. Results: In nine of the 12 patients, PHT plasma concentrations remained stable, with a mean (±SD) area under the curve (AUC) ratio (combination therapy/monotherapy) of 1.13 ± 0.17 (range, 0.89-1.23). Three patients had AUC ratios of 1.25, 1.39, and 1.55, respectively, and with the addition of TPM (800, 400, and 400 mg daily, respectively), their peak PHT plasma concentrations increased from 15 to 21 mg/L, 28 to 36 mg/L, and 27 to 41 mg/L, respectively. Human liver microsomal studies with S-mephenytoin showed that TPM partially inhibited CYP2C19 at very high concentrations of 300 μM (11% inhibition) and 900 μM (29% inhibition). Such high plasma concentrations would correspond to doses in humans that are 5 to 15 times higher than the recommended dose (200-400 mg). TPM clearance was approximately twofold higher during concomitant TPM/PHT therapy Conclusions: This study provides evidence that the addition of TPM to PHT generally does not cause clinically significant PK interaction. PHT induces the metabolism of TPM, causing increased TPM clearance, which may require TPM dose adjustments when PHT therapy is added or is discontinued. TPM may affect PHT concentrations in a few patients because of inhibition by TPM of the CYP2C19-mediated minor metabolic pathway of PHT.

KW - Antiepileptics

KW - Drug interactions

KW - Epilepsy

KW - Pharmacokinetics

KW - Phenytoin

KW - Topiramate

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U2 - 10.1046/j.1528-1157.2002.41701.x

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C2 - 12102670

AN - SCOPUS:0036069024

SN - 0013-9580

VL - 43

SP - 691

EP - 696

JO - Epilepsia

JF - Epilepsia

IS - 7

ER -

Topiramate and phenytoin pharmacokinetics during repetitive monotherapy and combination therapy to epileptic patients

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