Quantification of porogen effect on the drug release from single- and multi-layered ethylcellulose coated pellets containing single or combined drugs

[Display omitted] The aim of this work was to develop a mathematical model to estimate the drug release from a conventional single-compartment reservoir pellet and extend its applicability to multi-compartment reservoir pellets. Conventional pellets were prepared by layering the drug onto starter-core then applying various ethylcellulose/HPC coatings for drug release control. Multi-layered pellets comprised a first drug layer of propranolol HCl (D1) followed by a first controlled release coating (C1) and consecutively a second drug layer of carbamazepine or caffeine (D2) and then a second controlled-release coating (C2). Drug release from single- and multi-compartment pellets generally increased with an increase of the water-soluble HPC in the coatings. The response described a sigmoidal curve, which agreed with a cumulative normal distribution function. The developed mathematical model facilitated quantification of the drug release of pellets as a function of the porogen content and the coating level. Additionally, the model was applied successfully in multi-compartment pellets to calculate theses effects on the release of drugs with a broad range of aqueous solubility.