Structural, rheological, and gelling characteristics of starch‐based materials in context to 3D food printing applications in precision nutrition

Starch‐based materials have viscoelasticity, viscous film‐forming, dough pseudoplasticity, and rheological properties, which possess the structural characteristics (crystal structure, double helix structure, and layered structure) suitable for three‐dimensional (3D) food printing inks. 3D food print...

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Veröffentlicht in:Comprehensive reviews in food science and food safety 2023-11, Vol.22 (6), p.4217-4241
Hauptverfasser: Wu, Huanqi, Sang, Shangyuan, Weng, Peifang, Pan, Daodong, Wu, Zufang, Yang, Junsi, Liu, Lingyi, Farag, Mohamed A., Xiao, Jianbo, Liu, Lianliang
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Sprache:eng
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Zusammenfassung:Starch‐based materials have viscoelasticity, viscous film‐forming, dough pseudoplasticity, and rheological properties, which possess the structural characteristics (crystal structure, double helix structure, and layered structure) suitable for three‐dimensional (3D) food printing inks. 3D food printing technology has significant advantages in customizing personalized and precise nutrition, expanding the range of ingredients, designing unique food appearances, and simplifying the food supply chain. Precision nutrition aims to consider individual nutritional needs and individual differences, which include special food product design and personalized precise nutrition, thus expanding future food resources, then simplifying the food supply chain, and attracting extensive attention in food industry. Different types of starch‐based materials with different structures and rheological properties meet different 3D food printing technology requirements. Starch‐based materials suitable for 3D food printing technology can accurately deliver and release active substances or drugs. These active substances or drugs have certain regulatory effects on the gut microbiome and diabetes, so as to maintain personalized and accurate nutrition.
ISSN:1541-4337
1541-4337
DOI:10.1111/1541-4337.13217