Solubility of benzodiazepines in polyethylene glycol 200 + water mixtures at 303.2 K

Abolghasem Jouyban; Javad Shokri; Mohammad Barzegar-Jalali; Davoud Hassanzadeh; William E. Acree; Taravat Ghafourian; Ali Nokhodchi

doi:10.1021/je900330p

Solubility of benzodiazepines in polyethylene glycol 200 + water mixtures at 303.2 K

Abolghasem Jouyban
, Javad Shokri
, Mohammad Barzegar-Jalali
, Davoud Hassanzadeh
, William E. Acree
, Taravat Ghafourian
, Ali Nokhodchi

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

37 Scopus citations

Abstract

Experimental solubilities of chlordiazepoxide, diazepam, and lorazepam in polyethylene glycol 200 (PEG 200) + water mixtures at 303.2 K were reported. The solubility of each drug increased exponentially with the addition of PEG 200 and reached the maximum value in neat PEG 200. The Jouyban-Acree model was used to mathematically describe the experimental data, and the solubilities were predicted using a previously trained version of the Jouyban-Acree model for PEG + water mixtures and the solubility data in monosolvents. The overall mean relative deviations of the models were 3.7% and 18.3%, respectively, for the fitted model and the trained version.

Original language	English
Pages (from-to)	519-522
Number of pages	4
Journal	Journal of Chemical and Engineering Data
Volume	55
Issue number	1
DOIs	https://doi.org/10.1021/je900330p
State	Published - Jan 14 2010
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
General Chemical Engineering

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10.1021/je900330p

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title = "Solubility of benzodiazepines in polyethylene glycol 200 + water mixtures at 303.2 K",

abstract = "Experimental solubilities of chlordiazepoxide, diazepam, and lorazepam in polyethylene glycol 200 (PEG 200) + water mixtures at 303.2 K were reported. The solubility of each drug increased exponentially with the addition of PEG 200 and reached the maximum value in neat PEG 200. The Jouyban-Acree model was used to mathematically describe the experimental data, and the solubilities were predicted using a previously trained version of the Jouyban-Acree model for PEG + water mixtures and the solubility data in monosolvents. The overall mean relative deviations of the models were 3.7\% and 18.3\%, respectively, for the fitted model and the trained version. ",

author = "Abolghasem Jouyban and Javad Shokri and Mohammad Barzegar-Jalali and Davoud Hassanzadeh and Acree, \{William E.\} and Taravat Ghafourian and Ali Nokhodchi",

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T1 - Solubility of benzodiazepines in polyethylene glycol 200 + water mixtures at 303.2 K

AU - Jouyban, Abolghasem

AU - Shokri, Javad

AU - Barzegar-Jalali, Mohammad

AU - Hassanzadeh, Davoud

AU - Acree, William E.

AU - Ghafourian, Taravat

AU - Nokhodchi, Ali

PY - 2010/1/14

Y1 - 2010/1/14

N2 - Experimental solubilities of chlordiazepoxide, diazepam, and lorazepam in polyethylene glycol 200 (PEG 200) + water mixtures at 303.2 K were reported. The solubility of each drug increased exponentially with the addition of PEG 200 and reached the maximum value in neat PEG 200. The Jouyban-Acree model was used to mathematically describe the experimental data, and the solubilities were predicted using a previously trained version of the Jouyban-Acree model for PEG + water mixtures and the solubility data in monosolvents. The overall mean relative deviations of the models were 3.7% and 18.3%, respectively, for the fitted model and the trained version.

AB - Experimental solubilities of chlordiazepoxide, diazepam, and lorazepam in polyethylene glycol 200 (PEG 200) + water mixtures at 303.2 K were reported. The solubility of each drug increased exponentially with the addition of PEG 200 and reached the maximum value in neat PEG 200. The Jouyban-Acree model was used to mathematically describe the experimental data, and the solubilities were predicted using a previously trained version of the Jouyban-Acree model for PEG + water mixtures and the solubility data in monosolvents. The overall mean relative deviations of the models were 3.7% and 18.3%, respectively, for the fitted model and the trained version.

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Solubility of benzodiazepines in polyethylene glycol 200 + water mixtures at 303.2 K

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