Spray-drying encapsulation of microwave-assisted extracted polyphenols from Moringa oleifera: Influence of tragacanth, locust bean, and carboxymethyl-cellulose formulations

[Display omitted] •Moringa oleifera extract was encapsulated by spray-drying.•Encapsulation of moringa extract improved the phenolic retention and antioxidant properties.•Structural interactions of core and wall materials were confirmed by FTIR, TGA, DSC, and XRD.•Type of wall material had significant effects on microcapsule characteristics. In this work, polyphenols from Moringa oleifera (Mor) leaves were extracted by microwave-assisted extraction (MAE) and encapsulated by spray-drying (SD). Particularly, we explored the influence of tragacanth gum (TG), locust bean gum (LBG), and carboxymethyl-cellulose (CMC) as wall-materials on the physicochemical behavior of encapsulated Mor. Single or combined wall-material treatments (100:00 and 50:50 ratios, and total solid content 1%) were tested. The results showed the wall-material had a significant effect on the process yield (55.7–68.3%), encapsulation efficiency (24.28–35.74%), color (yellow or pale-yellow), total phenolic content (25.17–27.49 mg GAE g−1 of particles), total flavonoid content (23.20–26.87 mg QE g−1 of particles), antioxidant activity (DPPH• = 5.96–6.95 mg GAE g−1; ABTS•+ = 5.61–6.18 mg TE g−1 of particles), and particle size distribution (D50 = 112–1946 nm) of the encapsulated Mor. On the other hand, SEM analysis showed smooth and spherical particles, while TGA and DSC analyses confirmed the encapsulation of bioactive compounds based on the changes in thermal peaks. Finally, XRD analysis showed that the particles have an amorphous behavior. The encapsulated Mor produced with individual TG or CMC demonstrated better properties than those obtained from mixed gums. Thus, TG or CMC might be feasible wall materials for manufacturing encapsulated Mor that conserve the phenolic content and antioxidant activity.