Retardation of Polymeric Carrier Dissolution by Dispersed Drugs: Factors Influencing the Dissolution of Solid Dispersions Containing Polyethlene Glycols

Abstract

Molecular weight is an important determinant of plyethylene glycol (PEG) dissolution rate: the rate decreasing as the molecular weight is increased. PEG samples of equivalent nominal. molecular weight had different dissolution properties. Intrinsic viscosity and differential scanning calorimetry suggested that the observed differences my be related to molecular weight variation between samples. The dissolution rate of PEG from solid dispersions is retarded, the effect being dependent on the chemical nature of the drug and its concentration. Phenobarbitone was particularly potent in retarding PEG dissolution. Phenobarbitone dissolution rate was retarded from dispersions of high phenobarbitone content. However drug dissolution from solid dispersions low in phenobarbitone were greater than that of pure phenobarbitone. The low dissolution rates were explained in terms of formation of the 2:1 PEG monomer: phenobarbitone complex during solid dispersion formation. At high PEG weight fractions (i.e. 30:1, 50:1) drug dissolution was carrier controlled and although PEG dissolution was greatly suppressed, it was sufficiently large to transport the drug into solution at a rate greater than that of pure phenobarbitone.