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Shear, extensional rheology, and tribology of polysaccharide-thickened soy protein-based liquid systems for dysphagia management

Yabo Dong, Tian Lan, Ziyi Liu, Zejian Xu, Lianzhou Jiang, Yan Zhang, Xiaonan Sui

2024Food Chemistry26 citationsDOIOpen Access PDF

Abstract

Modifying food texture is a valuable approach to enhancing the quality of life for patients with dysphagia. Incorporating thickened soy protein-based liquid systems (SPLS) into their diet not only improves protein intake but also promotes safer swallowing. However, the properties of thickened SPLS are crucial for safe swallowing, may vary depending on the conformation of the thickened polysaccharides used. In this study, SPLS with different levels of thickening were prepared using xanthan gum, pectin and guar gum. The influence of polysaccharide conformation on the rheological (shear and extensional) and tribological properties of thickened SPLS was investigated. The results revealed that xanthan gum-thickened SPLS exhibiting the highest shear viscosity (110.073 Pa.s) and extensional viscosity (7.405 Pa.s), which increased with polysaccharide concentration. Meanwhile, xanthan gum possessed the strongest lubricating properties. These results shed light on the development of plant protein-based solutions for dysphagia management.

Topics & Concepts

Xanthan gumRheologyExtensional definitionExtensional viscosityGuar gumDysphagiaShear thinningPolysaccharideViscosityMouthfeelFood scienceThickening agentMaterials scienceChemistryChemical engineeringComposite materialThickeningShear viscosityPolymer scienceBiochemistryMedicineOrganic chemistrySurgeryRaw materialBiologyPaleontologyEngineeringTectonicsDysphagia Assessment and ManagementChild Nutrition and Feeding Issues
Shear, extensional rheology, and tribology of polysaccharide-thickened soy protein-based liquid systems for dysphagia management | Litcius