The purpose of this investigation is to formulate and evaluate the antihypertensive drug propranolol hydrochloride sustained-release bilayer tablets. In this formulation, one layer provides a loading dose through the immediate release of the drug, and the other layer provides a maintenance dose for up to 12 hours through controlled release. Different quantities of polymers such as Kyron T-314, Hydroxypropyl methylcellulose (HPMC-K4M), and ethyl cellulose were used to make bi-layer tablets by direct compression. The compatibility study of pharmaceutical excipients was conducted through FTIR studies, and no interaction was found. The pre-compression parameter for the angle of repose, bulk density, tapped density, and compressibility index was assessed on the produced granules, and the findings were good. The tablets were evaluated for the post-compression parameters for thickness, hardness, friability, and in-vitro release studies. In-vitro dissolution study was approved out for 12 hours using USP dissolution apparatus I using phosphate buffer of pH 1.2 and 6.8 as dissolution medium. HPMC-K4M and ethylcellulose were used in combination in all formulations but optimized formulation PHT4 showed a higher rate of drug release up to 12 hours as compared to the other formulation and optimized formulations PHT4 follows the Higuchi model with non-fickian diffusion based on regression coefficient of the kinetics data of cumulative drug release from the dosage form.
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