A novel oral controlled delivery system for propranolol hydrochloride (PPL) was developed and optimized. The in vitro dissolution profiles of sustained-release matrix tablets of racemic PPL were determined and compared with the United States Pharmacopeia (USP) tolerance specifications for Propranolol Hydrochloride Extended-Release Capsules. The influence of matrix forming agents (native dextran, hydroxypropyl methylcellulose (HPMC), cetyl alcohol) and binary mixtures of them on PPL release in vitro was investigated. A central composite design was applied to the optimization of a sustained-release tablet formulation. The sustained-release matrix tablets with good physical, mechanical and technological properties were obtained with a matrix excipient:PPL ratio of 60:40 (w/w), with a dextran:HPMC ratio of 4:1 (w/w) and with a cetyl alcohol amount of 15% (w/w). A comparative kinetic study of the present matrix tablets and commercial SUMIAL RETARD capsules (Spain) was established. The value for the similarity factor (f(2)=69.6) suggested that the dissolution profile of the present two sustained-release oral dosage forms are similar. Higuchi (diffusion) and Hixon-Crowell (erosion) kinetic profiles were achieved and this codependent mechanism of drug release was established.
The objective of the present work is to estimate for the first time the percolation threshold of a new series of dextran (native dextran of high molecular weight [B110-1-2, Mw = 2 x 10(6)]), in matrices of lobenzarit disodium (LBD) and to apply the obtained result to the design of hydrophilic matrices for the controlled delivery of this drug. The formulations studied were prepared with different amounts of excipient in the range of 20% to 70% wt/wt. Dissolution studies were performed using the paddle method (100 rpm) and one face water uptake measurements were performed using a modified Enslin apparatus. The Higuchi, zero-order, and Hixson-Crowell models as well as the nonlinear regression model were employed as empiric methods to study the release data. Values of diffusion exponent 0.563 < n < 0.786 (Korsmeyer equation) for dissolution profile and water uptake mechanism 0.715 < n < 1 (Davidson and Peppas equation) suggested anomalous or complex mechanisms. On the other hand, the contribution of the relaxation or erosion and of the diffusive mechanism in Peppas-Sahlin equation indicated that the main mechanism for drug delivery from tablets is swelling controlled delivery (K(r)/K(d) < 1). The critical points observed in kinetic parameters above 58.63% vol/vol of native dextran B110-1-2 plus initial porosity in the LBD-dextran matrices with a relative polymer/drug particle size of 4.17 were attributed to the existence of an excipient percolation threshold.
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