Suitability of using monolayered and multilayered emulsions for microencapsulation of ω-3 fatty acids by spray drying: effect of storage at different temperatures

TY - JOUR

T1 - Suitability of using monolayered and multilayered emulsions for microencapsulation of ω-3 fatty acids by spray drying

T2 - effect of storage at different temperatures

AU - Jiménez-Martín, Estefanía

AU - Gharsallaoui, Adem

AU - Pérez-Palacios, Trinidad

AU - Ruiz Carrascal, Jorge

AU - Rojas, Teresa Antequera

PY - 2014/1

Y1 - 2014/1

N2 - Microencapsulation of ω-3 fatty acids by spray drying was studied using both monolayered (lecithin) and multilayered (lecithin-chitosan) fish oil emulsions with maltodextrin as wall material. Stability of the multilayered emulsions was higher than the monolayered ones, and increased with the increase of the concentration of chitosan. No differences were detected in the moisture or MY of the microcapsules related to the different composition of the corresponding emulsions. On the contrary, MEE was significant higher in the case of the microcapsules produced with the multilayered emulsions with the highest concentration of chitosan (1 % w/w), being related with lower detection of TBARS at high storage temperatures. Overall, this study shows the suitability of microencapsulating ω-3 fatty acids by spray drying using both monolayered and multilayered fish oil emulsions with maltodextrin as wall material. Multilayered microcapsules prepared with lecithin-chitosan emulsions provide a great protective effect against lipid oxidation of fish oil during storage at moderate to high temperatures (30 °C and 60 °C). These multilayered microcapsules could be therefore successfully used as a fish oil protection approach for storage before its use as an ingredient in food products.

AB - Microencapsulation of ω-3 fatty acids by spray drying was studied using both monolayered (lecithin) and multilayered (lecithin-chitosan) fish oil emulsions with maltodextrin as wall material. Stability of the multilayered emulsions was higher than the monolayered ones, and increased with the increase of the concentration of chitosan. No differences were detected in the moisture or MY of the microcapsules related to the different composition of the corresponding emulsions. On the contrary, MEE was significant higher in the case of the microcapsules produced with the multilayered emulsions with the highest concentration of chitosan (1 % w/w), being related with lower detection of TBARS at high storage temperatures. Overall, this study shows the suitability of microencapsulating ω-3 fatty acids by spray drying using both monolayered and multilayered fish oil emulsions with maltodextrin as wall material. Multilayered microcapsules prepared with lecithin-chitosan emulsions provide a great protective effect against lipid oxidation of fish oil during storage at moderate to high temperatures (30 °C and 60 °C). These multilayered microcapsules could be therefore successfully used as a fish oil protection approach for storage before its use as an ingredient in food products.

KW - Emulsions

KW - Microcapsules

KW - Monolayered

KW - Multilayered

KW - Omega-3

KW - Spray-drying

KW - Storage

KW - Temperature

U2 - 10.1007/s11947-014-1382-y

DO - 10.1007/s11947-014-1382-y

M3 - Journal article

SN - 1935-5130

VL - 8

SP - 100

EP - 111

JO - Food and Bioprocess Technology

JF - Food and Bioprocess Technology

IS - 1

ER -