Performance comparison of a co-crystal of carbamazepine with marketed product

Magali B. Hickey; Matthew L. Peterson; Lisa A. Scoppettuolo; Sherry L. Morrisette; Anna Vetter; Hector Guzmán; Julius F. Remenar; Zhong Zhang; Mark D. Tawa; Sean Haley; Michael J. Zaworotko; Örn Almarsson

doi:10.1016/j.ejpb.2006.12.016

Performance comparison of a co-crystal of carbamazepine with marketed product

Magali B. Hickey, Matthew L. Peterson, Lisa A. Scoppettuolo, Sherry L. Morrisette, Anna Vetter, Hector Guzmán, Julius F. Remenar, Zhong Zhang, Mark D. Tawa, Sean Haley, Michael J. Zaworotko, Örn Almarsson

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

Abstract

The carbamazepine: saccharin co-crystal (1) was studied in terms of a series of attributes, including suitability for multi-gram scale-up, propensity for crystal polymorphism, physical stability, in vitro dissolution and oral bioavailability, with the goal of comparing 1 with the marketed form of carbamazepine (Tegretol^®). Preparation of 1 was achieved on a 30 g scale with a conventional cooling crystallization process from alcohol solution without seeding. The compound is not overtly polymorphic. This finding is in contrast to the form diversity of pure carbamazepine, which has four known polymorphs and a host of solvates, including a dihydrate, which is the stable form in the presence of water. Physical and chemical stability of the co-crystal is also shown to be quantitatively similar to the pure drug in the marketed product (Tegretol^®). Finally, comparison of oral bioavailability of 1 with Tegretol^® tablets in dogs shows the co-crystal to be a viable alternative to the anhydrous polymorph in formulated solid oral products. The balance of properties and performance of 1 as a model co-crystal is discussed.

Original language	English
Pages (from-to)	112-119
Number of pages	8
Journal	European Journal of Pharmaceutics and Biopharmaceutics
Volume	67
Issue number	1
DOIs	https://doi.org/10.1016/j.ejpb.2006.12.016
Publication status	Published - Aug 2007
Externally published	Yes

Keywords

Bioavailability
Co-crystal
Dihydrate
Dissolution
Pharmaceutical
Polymorphs
Saccharin
Stability

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10.1016/j.ejpb.2006.12.016

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Hickey, M. B., Peterson, M. L., Scoppettuolo, L. A., Morrisette, S. L., Vetter, A., Guzmán, H., Remenar, J. F., Zhang, Z., Tawa, M. D., Haley, S., Zaworotko, M. J., & Almarsson, Ö. (2007). Performance comparison of a co-crystal of carbamazepine with marketed product. European Journal of Pharmaceutics and Biopharmaceutics, 67(1), 112-119. https://doi.org/10.1016/j.ejpb.2006.12.016

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title = "Performance comparison of a co-crystal of carbamazepine with marketed product",

abstract = "The carbamazepine: saccharin co-crystal (1) was studied in terms of a series of attributes, including suitability for multi-gram scale-up, propensity for crystal polymorphism, physical stability, in vitro dissolution and oral bioavailability, with the goal of comparing 1 with the marketed form of carbamazepine (Tegretol{\textregistered}). Preparation of 1 was achieved on a 30 g scale with a conventional cooling crystallization process from alcohol solution without seeding. The compound is not overtly polymorphic. This finding is in contrast to the form diversity of pure carbamazepine, which has four known polymorphs and a host of solvates, including a dihydrate, which is the stable form in the presence of water. Physical and chemical stability of the co-crystal is also shown to be quantitatively similar to the pure drug in the marketed product (Tegretol{\textregistered}). Finally, comparison of oral bioavailability of 1 with Tegretol{\textregistered} tablets in dogs shows the co-crystal to be a viable alternative to the anhydrous polymorph in formulated solid oral products. The balance of properties and performance of 1 as a model co-crystal is discussed.",

keywords = "Bioavailability, Co-crystal, Dihydrate, Dissolution, Pharmaceutical, Polymorphs, Saccharin, Stability",

author = "Hickey, {Magali B.} and Peterson, {Matthew L.} and Scoppettuolo, {Lisa A.} and Morrisette, {Sherry L.} and Anna Vetter and Hector Guzm{\'a}n and Remenar, {Julius F.} and Zhong Zhang and Tawa, {Mark D.} and Sean Haley and Zaworotko, {Michael J.} and {\"O}rn Almarsson",

year = "2007",

month = aug,

doi = "10.1016/j.ejpb.2006.12.016",

language = "English",

volume = "67",

pages = "112--119",

journal = "European Journal of Pharmaceutics and Biopharmaceutics",

issn = "0939-6411",

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Hickey, MB, Peterson, ML, Scoppettuolo, LA, Morrisette, SL, Vetter, A, Guzmán, H, Remenar, JF, Zhang, Z, Tawa, MD, Haley, S, Zaworotko, MJ & Almarsson, Ö 2007, 'Performance comparison of a co-crystal of carbamazepine with marketed product', European Journal of Pharmaceutics and Biopharmaceutics, vol. 67, no. 1, pp. 112-119. https://doi.org/10.1016/j.ejpb.2006.12.016

TY - JOUR

T1 - Performance comparison of a co-crystal of carbamazepine with marketed product

AU - Hickey, Magali B.

AU - Peterson, Matthew L.

AU - Scoppettuolo, Lisa A.

AU - Morrisette, Sherry L.

AU - Vetter, Anna

AU - Guzmán, Hector

AU - Remenar, Julius F.

AU - Zhang, Zhong

AU - Tawa, Mark D.

AU - Haley, Sean

AU - Zaworotko, Michael J.

AU - Almarsson, Örn

PY - 2007/8

Y1 - 2007/8

N2 - The carbamazepine: saccharin co-crystal (1) was studied in terms of a series of attributes, including suitability for multi-gram scale-up, propensity for crystal polymorphism, physical stability, in vitro dissolution and oral bioavailability, with the goal of comparing 1 with the marketed form of carbamazepine (Tegretol®). Preparation of 1 was achieved on a 30 g scale with a conventional cooling crystallization process from alcohol solution without seeding. The compound is not overtly polymorphic. This finding is in contrast to the form diversity of pure carbamazepine, which has four known polymorphs and a host of solvates, including a dihydrate, which is the stable form in the presence of water. Physical and chemical stability of the co-crystal is also shown to be quantitatively similar to the pure drug in the marketed product (Tegretol®). Finally, comparison of oral bioavailability of 1 with Tegretol® tablets in dogs shows the co-crystal to be a viable alternative to the anhydrous polymorph in formulated solid oral products. The balance of properties and performance of 1 as a model co-crystal is discussed.

AB - The carbamazepine: saccharin co-crystal (1) was studied in terms of a series of attributes, including suitability for multi-gram scale-up, propensity for crystal polymorphism, physical stability, in vitro dissolution and oral bioavailability, with the goal of comparing 1 with the marketed form of carbamazepine (Tegretol®). Preparation of 1 was achieved on a 30 g scale with a conventional cooling crystallization process from alcohol solution without seeding. The compound is not overtly polymorphic. This finding is in contrast to the form diversity of pure carbamazepine, which has four known polymorphs and a host of solvates, including a dihydrate, which is the stable form in the presence of water. Physical and chemical stability of the co-crystal is also shown to be quantitatively similar to the pure drug in the marketed product (Tegretol®). Finally, comparison of oral bioavailability of 1 with Tegretol® tablets in dogs shows the co-crystal to be a viable alternative to the anhydrous polymorph in formulated solid oral products. The balance of properties and performance of 1 as a model co-crystal is discussed.

KW - Bioavailability

KW - Co-crystal

KW - Dihydrate

KW - Dissolution

KW - Pharmaceutical

KW - Polymorphs

KW - Saccharin

KW - Stability

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C2 - 17292592

AN - SCOPUS:34250862709

SN - 0939-6411

VL - 67

SP - 112

EP - 119

JO - European Journal of Pharmaceutics and Biopharmaceutics

JF - European Journal of Pharmaceutics and Biopharmaceutics

IS - 1

ER -

Performance comparison of a co-crystal of carbamazepine with marketed product

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Keywords

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