Ganoderma lucidum polysaccharide loaded sodium alginate micro-particles prepared via electrospraying in controlled deposition environments

In this study, GLP loaded sodium alginate (NaAlg) micro-particles (size range 225–355μm) were generated using the electrospray (ES) process. The loading capacity and encapsulation efficiency of GLP for composite particles (collected at different temperatures) were ∼23% and 71%, respectively. The collection substrate (CaCl2, 1–20w/v%) concentration was explored and preliminary findings indicated a 10w/v% solution to be optimal. The process was further modified by manipulating the collection environment temperature (∼25 to 50°C). Based on this, NaAlg/GLP micro-particles were engineered with variable surface morphologies (porous and crinkled), without effecting the chemical composition of either material (GLP and NaAlg). In-vitro release studies demonstrated pH responsive release rates. Modest release of GLP from micro-particles in simulated gastric fluid (pH ∼1.7) was observed, while rapid release was exhibited under simulated intestinal conditions (pH ∼7.4). Release of GLP from NaAlg beads was the greatest from samples prepared at elevated environmental temperatures. These findings demonstrate a facile route to fabricate GLP-NaAlg loaded micro-particles with various shapes, surface topographies and release characteristics via a one-step ES process. Graphical abstract
Source: International Journal of Pharmaceutics - Category: Drugs & Pharmacology Source Type: research