Characterization of freeze-dried microencapsulation tuna fish oil with arrowroot starch and maltodextrin Repository

Characterization of freeze-dried microencapsulation tuna fish oil with arrowroot starch and maltodextrin

Albert Linton Charles, ,- and Annur Ahadi Abdillah, ,- and YUNIAR RIZKY SARASWATI, 141411131022 and Kandi Sridhar, ,- and Christian Balderamos, ,- and Endang Dewi Masithah and Mochammad Amin Alamsjah, ,- (2021) Characterization of freeze-dried microencapsulation tuna fish oil with arrowroot starch and maltodextrin. Food Hydrocolloids.

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Abstract

to maltodextrin (MD) in whey protein (WP) combinations for its potential as a novel wall material to microencapsulate and limit oxidative rancidity of tuna fish oil. Tuna fish oil was mixed into six emulsions composed of 5:1, MD:WP (P1); 6.5:1, MD:WP (P2); 5:1, AS:WP (P3); 6.5:1, AS:WP (P4); 3.344:1.668:1, MD:AS:WP (P5); and 3.25:3.25:1, MD:AS:WP (P6) to produce microcapsules by freeze drying. The microcapsules were studied for encapsulation efficiency (EE), moisture content, water activity, peroxide value (PV), acid value (AV), microstructure, and the degree of primary oxidation was evaluated every 15 days for 90 days at ±25 ◦C. The fish oil microcapsules demonstrated high EE (80.5–86.4%), low moisture content (0.24–3.47%), and low water activity (0.05–0.23). The microcapsules exhibited PV (4.80–9.20 mEq/kg oil) and AV (1.46–2.24 %FFA) values that remained below industry-set maximum limits of PV (10 mEq O2/kg oil) and AV (<3) for refined fish oil. Particle size of the freeze-dried microcapsules ranged 26.72–103.14 μm with irregular to smooth surfaces. Microcapsules of MD:AS:WP (P6) combination exhibited the highest oxidation stability during the 90-day storage test. The results demonstrated that arrowroot starch: maltodextrin combinations successfully encapsulated tuna fish oil, improved shelf life, and demonstrated oxidative stability. Moreover, arrowroot starch behaved as a cryoprotectant during freeze-drying, and as wall material in tuna fish oil microencapsulation indicated its microencapsulation carrier and application potential in food fortification.

Item Type:

Article

Uncontrolled Keywords:

Tuna fish oil Arrowroot starch Freeze drying Microencapsulation Maltodextrin Oxidative stability

Subjects:

S Agriculture > SH Aquaculture. Fisheries. Angling > SH1-691 Aquaculture. Fisheries. Angling > SH201-399 Fisheries > SH328-329 Fishery management. Fishery policy

Divisions:

14. Fakultas Perikanan dan Kelautan > Manajemen Kesehatan Ikan & Budidaya Perikanan

Creators:

Creators	NIM
Albert Linton Charles, ,-	UNSPECIFIED
Annur Ahadi Abdillah, ,-	0022098502
YUNIAR RIZKY SARASWATI, 141411131022	UNSPECIFIED
Kandi Sridhar, ,-	UNSPECIFIED
Christian Balderamos, ,-	UNSPECIFIED
Endang Dewi Masithah	NIDN0012096902
Mochammad Amin Alamsjah, ,-	0016017002

Depositing User:

Dwi Marina

Date Deposited:

29 Apr 2023 03:02

Last Modified:

29 Apr 2023 03:02

URI:

http://repository.unair.ac.id/id/eprint/125698

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