Incorporating active pharmaceutical ingredients into a molecular salt using a chiral counterion

Andreas Lemmerer; Susan A. Bourne; Mino R. Caira; Jonathan Cotton; Umraan Hendricks; Laura C. Peinke; Lee Trollope

doi:10.1039/c0ce00043d

Incorporating active pharmaceutical ingredients into a molecular salt using a chiral counterion

Andreas Lemmerer, Susan A. Bourne, Mino R. Caira, Jonathan Cotton, Umraan Hendricks, Laura C. Peinke, Lee Trollope

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

18 Scopus citations

Abstract

The molecular salt structures of three active pharmaceutical ingredients with the pure enantiomers of the amine 1-phenylethylamine contain a predictable hydrogen bonded heterosynthon. The APIs containing a carboxylic acid functional group, namely (S)-ibuprofen, diclofenac and niflumic acid, transfer their acid proton to the amine and form three charge-assisted N⁺-H⋯O ^- hydrogen bonds. These three hydrogen bonds form hydrogen bonded columns with repeating R³₄(10) rings. The formation of the heterosynthon is predicted from a Cambridge Structural Database search, where the heterosynthon is formed in 87% of the structures containing carboxylate and ammonium functional groups, even in the presence of other hydrogen bonding functional groups such as alcohols.

Original language	English
Pages (from-to)	3634-3641
Number of pages	8
Journal	CrystEngComm
Volume	12
Issue number	11
DOIs	https://doi.org/10.1039/c0ce00043d
State	Published - 1 Nov 2010
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Materials Science
Condensed Matter Physics

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abstract = "The molecular salt structures of three active pharmaceutical ingredients with the pure enantiomers of the amine 1-phenylethylamine contain a predictable hydrogen bonded heterosynthon. The APIs containing a carboxylic acid functional group, namely (S)-ibuprofen, diclofenac and niflumic acid, transfer their acid proton to the amine and form three charge-assisted N+-H⋯O - hydrogen bonds. These three hydrogen bonds form hydrogen bonded columns with repeating R34(10) rings. The formation of the heterosynthon is predicted from a Cambridge Structural Database search, where the heterosynthon is formed in 87% of the structures containing carboxylate and ammonium functional groups, even in the presence of other hydrogen bonding functional groups such as alcohols.",

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T1 - Incorporating active pharmaceutical ingredients into a molecular salt using a chiral counterion

AU - Lemmerer, Andreas

AU - Bourne, Susan A.

AU - Caira, Mino R.

AU - Cotton, Jonathan

AU - Hendricks, Umraan

AU - Peinke, Laura C.

AU - Trollope, Lee

PY - 2010/11/1

Y1 - 2010/11/1

N2 - The molecular salt structures of three active pharmaceutical ingredients with the pure enantiomers of the amine 1-phenylethylamine contain a predictable hydrogen bonded heterosynthon. The APIs containing a carboxylic acid functional group, namely (S)-ibuprofen, diclofenac and niflumic acid, transfer their acid proton to the amine and form three charge-assisted N+-H⋯O - hydrogen bonds. These three hydrogen bonds form hydrogen bonded columns with repeating R34(10) rings. The formation of the heterosynthon is predicted from a Cambridge Structural Database search, where the heterosynthon is formed in 87% of the structures containing carboxylate and ammonium functional groups, even in the presence of other hydrogen bonding functional groups such as alcohols.

AB - The molecular salt structures of three active pharmaceutical ingredients with the pure enantiomers of the amine 1-phenylethylamine contain a predictable hydrogen bonded heterosynthon. The APIs containing a carboxylic acid functional group, namely (S)-ibuprofen, diclofenac and niflumic acid, transfer their acid proton to the amine and form three charge-assisted N+-H⋯O - hydrogen bonds. These three hydrogen bonds form hydrogen bonded columns with repeating R34(10) rings. The formation of the heterosynthon is predicted from a Cambridge Structural Database search, where the heterosynthon is formed in 87% of the structures containing carboxylate and ammonium functional groups, even in the presence of other hydrogen bonding functional groups such as alcohols.

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Incorporating active pharmaceutical ingredients into a molecular salt using a chiral counterion

Abstract

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