Evaluation of the Physicochemical and Micromeritic Properties of Exudate Gum of Cussonia arborea Stem Bark in Conventional Tablet Formulation

Abstract

Pharmaceutical excipients are classified based on the function(s) in the processing and/or finished product. However, functionality evaluations, procedures, and related acceptance criteria for excipients tend to depend on the dosage form, and assessment is usually done on a case-by-case basis. This means that any useful and reliable evaluation of the overall functionality-related properties is only possible within the context of the specific formulation method. This study evaluated the physicochemical, functional, and related properties of purified gum obtained from the stem bark of the Cussonia arborea tree. The purified gum was acidic (pH 5.32–5.50) with percentage (%) moisture content and insoluble matter of 13.33 ± 0.33 and 0.47 ± 0.01, respectively. Moreover, it was soluble in all the aqueous-based solvents but insoluble in all the organic solvents. The total ash of the gum was higher than that of international standard gum Arabic. Micromeritic properties indicated the need for a flow aid to improve flowability. Six formulated batches of tablets containing 0.5–5%w/w of gum, respectively, were generally soft with none passing the USP T80 standard of drug dissolution indicating poor tablet binding and drug-releasing properties. The disintegration action of CAPG was poor (only batches containing 0.5 and 1% CAPG passed) and was not comparable to that of the standard corn starch. The gum was therefore considered a poor disintegrant and binder in the formulation of conventional release tablets.