Statistical investigation of simulated fed intestinal media composition on the equilibrium solubility of oral drugs
Zhou, Zhou and Dunn, Claire and Khadra, Ibrahim and Wilson, Clive G. and Halbert, Gavin W. (2017) Statistical investigation of simulated fed intestinal media composition on the equilibrium solubility of oral drugs. European Journal of Pharmaceutical Sciences, 99. pp. 95-104. ISSN 0928-0987 (https://doi.org/10.1016/j.ejps.2016.12.008)
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Abstract
Gastrointestinal fluid is a complex milieu and it is recognised that gut drug solubility is different to that observed in simple aqueous buffers. Simulated gastrointestinal media have been developed covering fasted and fed states to facilitate in vitro prediction of gut solubility and product dissolution. However, the combination of bile salts, phospholipids, fatty acids and proteins in an aqueous buffered system creates multiple phases and drug solubility is therefore a complex interaction between these components, which may create unique environments for each API. The impact on solubility can be assessed through a statistical design of experiment (DoE) approach, to determine the influence and relationships between factors. In this paper DoE has been applied to fed simulated gastrointestinal media consisting of eight components (pH, bile salt, lecithin, sodium oleate, monoglyceride, buffer, salt and pancreatin) using a two level D-optimal design with forty-four duplicate measurements and four centre points. The equilibrium solubility of a range of poorly soluble acidic (indomethacin, ibuprofen, phenytoin, valsartan, zafirlukast), basic (aprepitant, carvedilol, tadalafil, bromocriptine) and neutral (fenofibrate, felodipine, probucol, itraconazole) drugs was investigated. Results indicate that the DoE provides equilibrium solubility values that are comparable to literature results for other simulated fed gastrointestinal media systems or human intestinal fluid samples. For acidic drugs the influence of pH predominates but other significant factors related to oleate and bile salt or interactions between them are present. For basic drugs pH, oleate and bile salt have equal significance along with interactions between pH and oleate and lecithin and oleate. Neutral drugs show diverse effects of the media components particularly with regard to oleate, bile salt, pH and lecithin but the presence of monoglyceride, pancreatin and buffer have significant but smaller effects on solubility. There are fourteen significant interactions between factors mainly related to the surfactant components and pH, indicating that the solubility of neutral drugs in fed simulated media is complex. The results also indicate that the equilibrium solubility of each drug can exhibit individualistic behaviour associated with the drug’s chemical structure, physicochemical properties and interaction with media components. The utility of DoE for fed simulated media has been demonstrated providing equilibrium solubility values comparable with similar in vitro systems whilst also providing greater information on the influence of media factors and their interactions. The determination of a drug’s gastrointestinal solubility envelope provides useful limits that can potentially be applied to in silico modelling and in vivo experiments.
ORCID iDs
Zhou, Zhou ORCID: https://orcid.org/0000-0002-6106-4759, Dunn, Claire ORCID: https://orcid.org/0000-0003-0265-7922, Khadra, Ibrahim ORCID: https://orcid.org/0000-0002-9846-1520, Wilson, Clive G. ORCID: https://orcid.org/0000-0002-4211-7907 and Halbert, Gavin W.;-
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Item type: Article ID code: 59060 Dates: DateEvent1 March 2017Published7 December 2016Published Online5 December 2016AcceptedNotes: Copyright © 2017 The Authors. Published by Elsevier B.V. All rights reserved. Subjects: Medicine > Pharmacy and materia medica Department: Faculty of Science > Strathclyde Institute of Pharmacy and Biomedical Sciences Depositing user: Pure Administrator Date deposited: 09 Dec 2016 16:54 Last modified: 22 Dec 2024 01:18 Related URLs: URI: https://strathprints.strath.ac.uk/id/eprint/59060