All Bio-Based µ-Beads from Microalgae for Probiotics Delivery

IF 6.5 3区 材料科学 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY
Danilo Vona, Stefania Roberta Cicco, Flavia Maria la Forgia, Mirco Vacca, Annalisa Porrelli, Gianvito Caggiano, Maria De Angelis, Loreto Gesualdo, Gianluca Maria Farinola
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Abstract

The food of the future aims to offer several essential qualities: i) environmental respect in sourcing raw materials; ii) sustainable transformation processes; iii) enrichment with probiotic microorganisms; iv) biocompatible natural matrices. These features both enhance the nutritional value of the food and improve its pharmacological and immunological properties. When probiotics are introduced into gut in adequate densities through diet, they symbiotically promote health by boosting immune defense, producing beneficial organic molecules, and providing essential metabolic pathways for better nutrient assimilation and biotransformation. A major challenge with probiotics is their low resistance to gastrointestinal (GI) transit due to pH and other adverse hydro-ionic conditions affecting their viability. Here, diatom microalgae (Coscinodiscus granii) is presented as a natural source of micro-pills, functionalized with biopolymers (Shellac and Chitosan) for enteric protection, with a loading value of 71 ± 7%, higher in comparison with the loading capacity tested for two other commercial polymers. Moreover, biosilica embedded and sealed with the enteric polymers best-protected probiotics under pH changes, and thermal and storage stresses by one-fold more than the control probiotics without or with the lone shielding polymers. These work outcomes describe envisaging silica hybrid microcarriers obtained from living microalgae, effectively protecting probiotics in an entirely biological formulation.

Abstract Image

Abstract Image

用于输送益生菌的微藻生物基微胶囊
未来食品的目标是提供以下几种基本品质:i) 在采购原材料时尊重环境;ii) 可持续的转化过程;iii) 富含益生微生物;iv) 生物兼容的天然基质。这些特点既提高了食品的营养价值,又改善了其药理和免疫特性。当益生菌以足够的密度通过饮食进入肠道时,它们会通过增强免疫防御、产生有益的有机分子以及为更好的营养吸收和生物转化提供必要的代谢途径来促进健康。益生菌面临的一个主要挑战是,由于 pH 值和其他不利的水离子条件影响它们的活力,它们对胃肠道(GI)转运的抵抗力较低。在这里,硅藻微藻(Coscinodiscus granii)被作为一种天然微丸来源加以介绍,这种微丸具有生物聚合物(贝壳藻胶和壳聚糖)的功能,可提供肠道保护,其负载值为 71 ± 7%,与其他两种商业聚合物的负载能力相比更高。此外,嵌入并密封了肠道聚合物的生物二氧化硅在 pH 值变化、热应力和储存应力条件下对益生菌的保护效果最好,是不含或含单独屏蔽聚合物的益生菌对照组的 1 倍。这些工作成果描述了从活体微藻中提取二氧化硅混合微载体的设想,它能有效保护完全生物制剂中的益生菌。
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来源期刊
Advanced Sustainable Systems
Advanced Sustainable Systems Environmental Science-General Environmental Science
CiteScore
10.80
自引率
4.20%
发文量
186
期刊介绍: Advanced Sustainable Systems, a part of the esteemed Advanced portfolio, serves as an interdisciplinary sustainability science journal. It focuses on impactful research in the advancement of sustainable, efficient, and less wasteful systems and technologies. Aligned with the UN's Sustainable Development Goals, the journal bridges knowledge gaps between fundamental research, implementation, and policy-making. Covering diverse topics such as climate change, food sustainability, environmental science, renewable energy, water, urban development, and socio-economic challenges, it contributes to the understanding and promotion of sustainable systems.
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