Relationseips Between Drug Dissolution Profile and Gelling Agent Viscosity in Tablets Prepared with Hydroxypropylmethylcellulose (HPMC) and Sodium Carboxymethylcellulose (NaCMC) Mixtures

Abstract

Two varieties of HPMC, two varieties of NaCMC and various HPMC/NaCMC mixtures were characterized with the aim of providing a sound basis for the selection of appropriate mixtures to use as gelling agents in controlled-release tablets for hydrosoluble drugs. For both HPMC and NaCMC, one variety was of high and the other of low nominal viscosity. We also investigated possible relationships between the rheological properties of HPMC/NaCMC mixtures and atenolol release from tablets prepared with such mixtures. The mean molecular weights of each polymer variety were estimated on the basis of determination of their intrinsic viscosities in aqueous dispersions. Rotational viscosimetry of 2% aqueous dispersions of the polymers and polymer mixtures revealed rheological synergism in some mixtures. Drug dissolution trials were carried out in water and 0.1 N HCl. Dissolution medium, gelling agent composition and proportion of gelling agent in the tablet all affected dissolution profiles. Fitting of Korsmeyer et al.'s equation to the data for dissolution in water indicated zero-order dissolution kinetics for all formulations. For tablets prepared with the most viscous HPMC variety, %hour dissolution efficiency was closely correlated with the apparent viscosity (shear rate 0.5 s^?1) of the aqueous dispersion of the polymer mixture used as gelling agent. Assays of tablet erosion rates indicated that the erosion mechanism may contribute to the observed zero-order dissolution kinetics, but that other factors are probably also involved.