Application of polyurethane resin from castor oil in controlled release gastroretentive dosage forms

Natural polymers have been extensively used as pharmaceutical excipients mainly due to their biocompatibility and renewability. The aim of this study was to investigate the application of polyurethane resin from castor oil (PU) in controlled release gastroretentive dosage forms. The work presented herein is divided in four chapters. Chapter 1 is an overview of the application of polyurethanes as drug delivery systems, emphasizing studies containing castor oil-based polyurethanes. Chapter 2 is a systematic review of gastroretentive drug delivery systems. Chapter 3 is about the development and characterization of the PU containing drug in its matrix. Domperidone and verapamil hydrochloride were chosen as model drugs due to their potential use in gastroretentive formulations. Physicochemical studies showed that part of domperidone interacted chemically with PU. Since it is not possible a cleavage of the chemical bond between domperidone and the polyurethane during the dissolution study, part of the drug was not available for release. On the other hand, verapamil was successfully incorporated into PU by solvent evaporation method. Verapamil interacted by intermolecular forces with the polymer and this system showed a promising drug dissolution profile. Chapter 4 shows the development of floating monolithic matrices, containing verapamil as model drug, polypropylene foam as low-density excipient and a blend of PU and microcrystalline cellulose as matrix-forming polymers. The in vitro buoyancy capability of the matrices and the ability to control drug release were demonstrated. Finally, PU proved to be a potential polymer to be used in controlled drug delivery systems due to its hydrophobicity and in gastroretentive floating systems due to its low density. (AU)