Details

Autor(en) / Beteiligte

• Figueroa-Enriquez, Cielo E.
• Rodríguez-Félix, Francisco
• Plascencia-Jatomea, Maribel
• Sánchez-Escalante, Armida
• Vargas-López, Juan M.
• Tapia-Hernández, José A.
• Canizales-Rodríguez, Dalila F.
• Castro-Enriquez, Daniela D.
• Ruiz-Cruz, Saúl
• Santos-Sauceda, Irela
• Burruel-Ibarra, Silvia E.
• Pompa-Ramos, José L.

Titel

Nanoparticles of Betalain–Gelatin with Antioxidant Properties by Coaxial Electrospraying: Preparation and Characterization

Ist Teil von

• ACS omega, 2023-11, Vol.8 (44), p.41156-41168

Ort / Verlag

American Chemical Society

Erscheinungsjahr

2023

Quelle

EZB Free E-Journals

Beschreibungen/Notizen

• Betalains are bioactive compounds with attractive antioxidant properties for the food industry, endowing them with potential application in food coatings to maintain quality and extend shelf life. However, they have low stability to factors such as light, temperature, and humidity. An alternative to protect bioactive compounds is nanoencapsulation; one of the most used techniques to produce an encapsulation is coaxial electrospraying. In this research, the preparation and characterization of gelatin–betalain nanoparticles were carried out using the coaxial electrospray technique. Betalains were extracted from pitaya (Stenocereus thurberi) and encapsulated in gelatin. The obtained material was evaluated by SEM, FTIR, TGA, and DSC techniques and for its antioxidant capacity. By SEM, nanoparticles with spherical and monodisperse morphologies were observed, with betalain concentrations of 1 and 3% w/v and average diameters of 864 and 832 μm, respectively. By FTIR, the interaction between betalain and gelatin was observed through amino groups and hydrogen bonds. Likewise, the antioxidant activity of the betalains was maintained at the time of encapsulation, increasing the antioxidant activity as the concentration increased. The results of the DPPH, ABTS, and total phenols methods were 645.4592 μM T/g, 832.8863 ± 0.0110 μM T/g, and 59.8642 ± 0.0279 mg GAE/g for coaxial nanoparticles with 3% betalains, respectively. Therefore, the coaxial electrospray technique was useful for obtaining nanoparticles with good antioxidant properties, and due to the origin of its components and since the use of toxic solvents is not necessary in the technique, the material obtained can be considered food grade with potential application as a coating on functional foods.