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Foi estudado o impacto da concentração de óleo de peixe na estabilidade oxidativa de microcápsulas por meio do processo de secagem por atomização, utilizando quitosana e maltodextrina como material de parede. As emulsões foram preparadas com diferentes teores de óleo de atum (TFO) (TFO-10%, TFO20%, TF030% TF0-40%), enquanto a concentração de material de parede foi mantida constante. O pó microencapsulado resultante da emulsão preparada com alta carga de óleo de peixe tem alto teor de umidade, molhabilidade e óleo total e baixa eficiência de encapsulação, higroscopicidade e densidade extraída a granel. A estabilidade oxidativa foi avaliada periodicamente colocando microcápsulas à temperatura ambiente. As microcápsulas preparadas com TFO-10% apresentaram alta estabilidade oxidativa em termos de valor de peróxido (2,94 ± 0,04) e valor de anisidina (1,54 ± 0,02) após 30 dias de armazenamento. Concluiu-se que as quantidades ideais de óleo de peixe para microencapsulação são de 10% e 20% usando quitosana e maltodextrina que prolongaram sua vida útil durante o período de estudo.

Alternate abstract:

The impact of fish oil concentration on the oxidative stability of microcapsules through the spray drying process using chitosan and maltodextrin as wall material was studied. Emulsions were prepared with different Tuna fish oil (TFO) content (TFO-10%, TFO20%, TF030% TF0-40%) while wall material concentration was kept constant. Microencapsulated powder resulting from emulsion prepared with high fish oil load have high moisture content, wettability, total oil and low encapsulation efficiency, hygroscopicity and bulk tapped density. Oxidative stability was evaluated periodically by placing microcapsules at room temperature. Microcapsules prepared with TFO-10% presented high oxidative stability in terms of peroxide value (2.94±0.04) and anisidine value (1.54±0.02) after 30 days of storage. It was concluded that optimal amounts of fish oil for microencapsulation are 10% and 20% using chitosan and maltodextrin that extended its shelf life during study period.

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Title

Development of chitosan based microencapsulated spray dried powder of tuna fish oil: oil load impact and oxidative stability

Author

Kanwal, S¹; Hafeez-Ur-Rehman, M¹; Hussain, A²; Nadeem, M³; Abbas, F¹; Akram, M; Inayat, M; Sughra, F; Ali, K

¹ University of Veterinary and Animal Sciences, Department of Fisheries and Aquaculture, Lahore, Pakistan
² University of Veterinary & Animal Sciences, Department of Wildlife & Ecology, Lahore, Pakistan
³ University of Veterinary and Animal Sciences, Department of Dairy Technology, Lahore, Pakistan

Pages

1-8

Section

Original Article

Publication year

2024

Publication date

2024

Publisher

Instituto Internacional de Ecologia

ISSN

15196984

e-ISSN

16784375

Source type

Scholarly Journal

Language of publication

English

DOI

https://doi.org/10.1590/1519-6984.254010

ProQuest document ID

2717149771

© 2024. This work is published under https://creativecommons.org/licenses/by/4.0/ (the “License”). Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License.

Development of chitosan based microencapsulated spray dried powder of tuna fish oil: oil load impact and oxidative stability

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