Prospects of using non-thermal technologies for chia seed mucilage extraction

Sustainable Food Technology Pub Date : 2024-06-05 DOI:10.1039/D4FB00074A

Divyang Solanki, Indrawati Oey, Sangeeta Prakash, Bhesh Bhandari and Jatindra K. Sahu

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Abstract

Chia seed mucilage (CSM) possesses a range of functional and bio-functional properties, making it a valuable hydrocolloid. The CSM extraction process includes stages such as hydration, separation, recovery, and purification of polysaccharides. Traditional methods using strong bases or acids and high temperatures can damage CSM and demucilaged seeds, which are useful for oil extraction. To address this issue, non-thermal technologies have shown significant promise as an environmentally friendly extraction method. Based on the existing literature, this review focuses on non-thermal techniques such as ultrasonication, cold plasma, microwave, and pulsed electric field, for potential future use. It highlights the benefits of non-thermal technologies on the physical and functional properties of CSM. The review emphasises the potential of CSM as a novel food hydrocolloid across various industries, including its use in pharmaceuticals and cosmetics, emphasising sustainable extraction and application.

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使用非热技术提取奇异籽粘液的前景

奇异籽粘液（CSM）具有一系列功能和生物功能特性，是一种宝贵的水胶体。CSM 提取过程包括多糖的水合、分离、回收和纯化等阶段。使用强碱或强酸和高温的传统方法会损坏 CSM 和脱泥浆种子，而它们对榨油非常有用。为解决这一问题，非热技术作为一种环境友好型提取方法已显示出巨大的前景。在现有文献的基础上，本综述重点介绍了非热技术，如超声波、冷等离子体、微波和脉冲电场，以及未来的潜在用途。它强调了非热技术对 CSM 物理和功能特性的益处。综述强调了 CSM 作为新型食品水胶体在各行各业的应用潜力，包括在药品和化妆品中的应用，并强调了可持续提取和应用。

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来源期刊

Sustainable Food Technology

CiteScore

1.00

自引率

0.00%

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