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Development of soy protein isolate gels added with <i>Tremella</i> polysaccharides and psyllium husk powder as 3D printing inks for people with dysphagia

Fangwei Liu, Xiaoxiao Song, Shuigen Bian, Xiaojun Huang, Junyi Yin, Shaoping Nie

2024Food & Function18 citationsDOI

Abstract

polysaccharides (TPs) and psyllium husk powder (PHP) as 3D printing inks for developing dysphagia-friendly food and elucidate the potential mechanism of TPs and PHP in enhancing the printing and swallowing performance of SPI gels. The results indicated that the SPI gels with a TP : PHP ratio of 3 : 7 could be effectively used as printing inks to manufacture dysphagia-friendly food. The addition of TPs increased the free water content, resulting in a decrease in the viscosity of the SPI gels, which, in turn, reduced the line width of the 3D-printed product and structural strength of the gel system. The addition of PHP increased disulfide bond interactions and excluded volume interactions, which determined the mechanical strength of SPI gels and increased the line width of the printed product. The synergistic effects between TPs and PHP improved the printing precision and structural stability. This study presents meaningful insights for the utilization of 3D printing in the creation of dysphagia-friendly food using protein-polysaccharide complexes.

Topics & Concepts

Soy proteinFood scienceHuskPsylliumDysphagiaPolysaccharideChemistryChromatographyDietary fiberBiologyMedicineBotanyBiochemistrySurgerybiodegradable polymer synthesis and propertiesFood composition and propertiesElectrospun Nanofibers in Biomedical Applications
Development of soy protein isolate gels added with <i>Tremella</i> polysaccharides and psyllium husk powder as 3D printing inks for people with dysphagia | Litcius