喷雾干燥饲料制备:酶解葡甘露聚糖制备铁纳米胶囊

IF 1.9 Q2 AGRICULTURE, MULTIDISCIPLINARY
D. H. Wardhani, H. Cahyono, H. N. Ulya, A. C. Kumoro, K. Anam, J. Vázquez
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引用次数: 2

摘要

需要对葡甘露聚糖(GM)的粘度进行改性,以支持其在喷雾干燥封装中的应用。本研究的目的是研究降解转基因使用纤维素酶,满足粘度在喷雾干燥机规格。这种水解的葡甘露聚糖(HGM)随后被喷雾干燥用于包封铁。较低的初始GM浓度(0.5-1%)达到约0.30 Pa·s,使用10 mg/L纤维素酶降解100 min后可以喷雾干燥。同时,1.5%和1.7% GM的黏度在300 min后仍未达到目标黏度。对于≤1.5% GM初始浓度的黏度降低,n级模型最适合(决定系数R2 > 0.98),而Mahammad模型适合于1.75% GM初始浓度的黏度降低(R2 = 0.99)。水解降低了聚合度和表面张力,但提高了抗氧化活性。小分子的多糖在水解后释放出来。使用HGM包封的铁颗粒比使用GM包封的铁颗粒更亲水。在pH 6.8时,铁在前40分钟的释放速率往往高于pH 1.2。因此,HGM显示出其作为酸性环境中需要保护的铁的控制释放基质的能力,并将其传递到中性部位进行吸收。在0.35 Pa·s黏度条件下,纳米包封率为84%,包封率为96.41%,包封率为10%。铁包被的粒径以直径68.62 nm为主。这项研究表明,使用适当粘度的HGM不仅可以喷雾干燥,而且可以通过包封铁来保护铁。该基质包封其他生物活性化合物的性能有待进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Spray-dryer feed preparation: Enzymatic degradation of glucomannan for iron nanoencapsulation
Viscosity of glucomannan (GM) needs to be modified to support its application for spray drying encapsulation. The purpose of this study was to investigate degradation of GM using cellulase that fulfills viscosity in a spray-dryer specification. This hydrolyzed glucomannan (HGM) was subsequently spray-dried for encapsulating iron. Lower initial GM concentrations (0.5–1%) reached approximately 0.30 Pa·s which allowed to be spray-dried after 100 min degradation using 10 mg/L cellulase. Meanwhile, viscosity of 1.5% and 1.7% GM did not reach the target viscosity even after 300 min. The nth-order model was the most suitable model to achieve viscosity reduction of ≤1.5% initial GM concentration (coefficient of determination, R2 > 0.98), whereas the Mahammad model fitted the viscosity reduction of 1.75% initial GM concentration (R2 = 0.99). Hydrolysis decreased the degree of polymerization and surface tension but increased the antioxidant activities. Smaller molecules of the polysaccharides were released after hydrolysis. Particles of encapsulated iron using HGM were more hydrophilic than that using GM. The iron tended to have a higher release rate at pH 6.8 than at pH 1.2 in the first 40 min. Hence, the HGM showed its ability to act as a control release matrix for the iron that needs a protection in the acid environment, and delivers them to the neutral site for absorption. Nanoencapsulation using 0.35 Pa·s viscosity of HGM was able to have 84% yield, 96.41% encapsulation efficiency, and 10% moisture content. Particle size of the iron encapsulation was dominated by 68.62 nm-diameter. This study shows a potency to use an appropriate viscosity of HGM which not only allows to be spray-dried but also support in protecting the iron as aimed by encapsulation the iron. Performances and properties of this matrix on encapsulating other bioactive compounds become future study.
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来源期刊
AIMS Agriculture and Food
AIMS Agriculture and Food AGRICULTURE, MULTIDISCIPLINARY-
CiteScore
3.70
自引率
0.00%
发文量
34
审稿时长
8 weeks
期刊介绍: AIMS Agriculture and Food covers a broad array of topics pertaining to agriculture and food, including, but not limited to:  Agricultural and food production and utilization  Food science and technology  Agricultural and food engineering  Food chemistry and biochemistry  Food materials  Physico-chemical, structural and functional properties of agricultural and food products  Agriculture and the environment  Biorefineries in agricultural and food systems  Food security and novel alternative food sources  Traceability and regional origin of agricultural and food products  Authentication of food and agricultural products  Food safety and food microbiology  Waste reduction in agriculture and food production and processing  Animal science, aquaculture, husbandry and veterinary medicine  Resources utilization and sustainability in food and agricultural production and processing  Horticulture and plant science  Agricultural economics.
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