Monday, 24 April 2017

Mathematical Modelling of Liquid Transport in Swelling Pharmaceutical Immediate Release Tablets

Markl, D., Yassin, S., Wilson, D. I., Goodwin, D. J., Anderson, A., & Zeitler, J. A. (2017). Mathematical Modelling of Liquid Transport in Swelling Pharmaceutical Immediate Release Tablets. International Journal of Pharmaceutics.

Abstract


Oral dosage forms are an integral part of modern health care and account for the majority of drug delivery systems. Traditionally the analysis of the dissolution behaviour of a dosage form is used as the key parameter to assess the performance of a drug product. However, understanding the mechanisms of disintegration is of critical importance to improve the quality of drug delivery systems. The disintegration performance is primarily impacted by the hydration and subsequent swelling of the powder compact. Here we compare liquid ingress and swelling data obtained using terahertz pulsed imaging (TPI) to a set of mathematical models. The interlink between hydration kinetics and swelling is described by a model based on Darcy's law and a modified swelling model based on that of Schott. Our new model includes the evolution of porosity, pore size and permeability as a function of hydration time. Results obtained from two sets of samples prepared from pure micro-crystalline cellulose (MCC) indicate a clear difference in hydration and swelling for samples of different porosities and particle sizes, which are captured by the model. Coupling a novel imaging technique, such as TPI, and mathematical models allows better understanding of hydration and swelling and eventually tablet disintegration.

for full paper see 
http://www.sciencedirect.com/science/article/pii/S037851731730296X

for information about TeraView see
http://www.azom.com/suppliers.aspx?SupplierID=12145

for information about the Cambridge Terahertz group see
http://thz.ceb.cam.ac.uk/

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