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Two-scale, three-phase theory for swelling drug delivery systems. Part II: Flow and transport models

✍ Scribed by Tessa F. Weinstein; Lynn S. Bennethum; John H. Cushman

Book ID: 102400096
Publisher: John Wiley and Sons
Year: 2008
Tongue: English
Weight: 182 KB
Volume: 97
Category: Article
ISSN: 0022-3549
DOI: 10.1002/jps.21113

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✦ Synopsis

Darcy's law and Fick's law of Part I are combined with bulk and species conservation of mass equations, respectively, to obtain flow and transport models for swelling drug delivery systems. The model identifies three distinct regimes and makes the appropriate simplifying assumptions for each. The result is a set of highly nonlinear, coupled, integro-partial differential equations. The advantage of this model is that it can be easily modified to account for multiple simplified scenarios and geometries. As an example, boundary conditions are given for a radially symmetric drug delivery device.

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Two-scale, three-phase theory for swelling drug delivery systems. Part I: Constitutive theory

✍ T.F. Weinstein; L.S. Bennethum; J.H. Cushman 📂 Article 📅 2008 🏛 John Wiley and Sons 🌐 English ⚖ 384 KB

Polymeric carriers used in drug delivery applications, such as hydroxypropyl methylcellulose, that swell significantly upon coming in contact with water (or biological fluid) have been historically difficult to model due to the complex interplay of forces. This article seeks to introduce a thermodyn