CHIA OIL MICROENCAPSULATION BY SPRAY DRYING USING MODIFIED SOY PROTEIN AS WALL MATERIAL

GIMENEZ PAOLA ALEJANDRA; BERGESSE ANTONELLA ESTEFANÍA; CAMACHO NAHUEL MATÍAS; RIBOTTA PABLO DANIEL; MARTÍNEZ MARCELA; GONZÁLEZ AGUSTÍN

Congreso; IV Conference Ia Valse-Food Cyted and VII Symposium Chia-Link; 2022

Chia seed is source of polyunsaturated fatty acids. A diet rich in polyunsaturated fatty acids decreases the risk of many chronic non-communicable diseases. The incorporation of omega-3-rich oils in processed foods seems to be an efficient way to increase its consumption, however, when these are exposed to process conditions, oxidation reactions occur. Microencapsulation technology is an alternative to enhance lipids stability. The use of vegetable proteins as wall materials is being widely developed. The objective of the present work was to study the effect of the microencapsulation using chemically modified soy protein as wall material on chia oil oxidative stability. The crosslinking effect on soy protein with different concentrations of gallic and tannic acids was evaluated. Chia oil was incorporated into the dispersions using a high-speed homogenizer and the emulsions were dried by Spray-Drying. The microcapsules moisture content and water activity were around 2.96-5.86% and 0.17, respectively. The encapsulation efficiency was among 54-78%. The oxidative stability determined by the Rancimat analysis showed a positive correlation between the amount of cross-linking agent used and the induction time, reaching a maximum of 27.9 h. Six systems were selected for the storage test. After 90 days, the peroxide value was lower for those samples with the higher proportion of crosslinker agent used. The results demonstrated that use of these polyphenols as crosslinkers of the wall material exerts a positive effect in the protection of the chia oil derived from obtaining an optimized wall material and from the intrinsic antioxidant properties of these crosslinkers.