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Encapsulation of Bioactive Compounds for Food and Agricultural Applications

化学 麦芽糊精 明胶 果胶 刺槐豆胶 食品科学 乳清蛋白 生物高聚物 控制释放 生物技术 喷雾干燥 有机化学 黄原胶 聚合物 纳米技术 材料科学 流变学 复合材料 生物
作者
Giovani L. Zabot,Fabiele Schaefer Rodrigues,Lissara Polano Ody,Marcus V. Tres,Esteban Herrera,Heidy Palacin-Baldeón,Javier S. Córdova‐Ramos,Iván Best,Luis Olivera‐Montenegro
出处
期刊:Polymers [Multidisciplinary Digital Publishing Institute]
卷期号:14 (19): 4194-4194 被引量:333
标识
DOI:10.3390/polym14194194
摘要

This review presents an updated scenario of findings and evolutions of encapsulation of bioactive compounds for food and agricultural applications. Many polymers have been reported as encapsulated agents, such as sodium alginate, gum Arabic, chitosan, cellulose and carboxymethylcellulose, pectin, Shellac, xanthan gum, zein, pullulan, maltodextrin, whey protein, galactomannan, modified starch, polycaprolactone, and sodium caseinate. The main encapsulation methods investigated in the study include both physical and chemical ones, such as freeze-drying, spray-drying, extrusion, coacervation, complexation, and supercritical anti-solvent drying. Consequently, in the food area, bioactive peptides, vitamins, essential oils, caffeine, plant extracts, fatty acids, flavonoids, carotenoids, and terpenes are the main compounds encapsulated. In the agricultural area, essential oils, lipids, phytotoxins, medicines, vaccines, hemoglobin, and microbial metabolites are the main compounds encapsulated. Most scientific investigations have one or more objectives, such as to improve the stability of formulated systems, increase the release time, retain and protect active properties, reduce lipid oxidation, maintain organoleptic properties, and present bioactivities even in extreme thermal, radiation, and pH conditions. Considering the increasing worldwide interest for biomolecules in modern and sustainable agriculture, encapsulation can be efficient for the formulation of biofungicides, biopesticides, bioherbicides, and biofertilizers. With this review, it is inferred that the current scenario indicates evolutions in the production methods by increasing the scales and the techno-economic feasibilities. The Technology Readiness Level (TRL) for most of the encapsulation methods is going beyond TRL 6, in which the knowledge gathered allows for having a functional prototype or a representative model of the encapsulation technologies presented in this review.
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