Byoungseung Yoo scite author profile

Gum-based food thickeners are widely used for diet modification for patients with dysphagia in Korea. In this study, the rheological properties of two commercially available gum-based food thickeners (xanthan gum and xanthan-guar gum mixture) marketed in Korea were determined as a function of concentration. The steady and dynamic shear rheological properties of the food thickeners in water were investigated at five different concentrations (1.0 %, 1.5 %, 2.0 %, 2.5 %, and 3.0 % w/w). Both food thickeners showed high shear-thinning fluid characteristics (n = 0.14-0.19) at all concentrations (1.0-3.0 %). In general, the thickener with the xanthan-guar gum mixture showed higher values for steady shear viscosity compared to that with xanthan alone, whereas it showed lower dynamic rheological parameter values. Steady and dynamic rheological parameters demonstrated differences in rheological behaviors between the gum-based food thickeners, indicating that their rheological properties are related to the type of gum and gum concentration. In particular, the type of gum played a role in the time-dependent flow properties of the gum-based food thickeners. Appropriately selecting a commercial food thickener appears to be of great importance for dysphagia therapists and patients.

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Effect of Octenylsuccinylation on Rheological Properties of Corn Starch Pastes

Park

Chung²,

Yoo

2004

Starch Stärke

129

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Rheological properties of corn starch octenylsuccinate (OSA starch) pastes (5%, w/w), at different 1‐octenylsuccinic anhydride (OSA) contents (0, 1.0, 1.5, 2.0 and 2.5%, w/w) were evaluated in steady and dynamic shear. The OSA starch pastes had high shear‐thinning behaviors and their flow behaviors were described by power law, Casson, and Herschel‐Bulkley models. Magnitudes of consistency index (K, Kh) and yield stress (σoc, σh) increased with the increase in OSA content and the decrease in temperature. Over the temperature range of 10–50°C, the effect of temperature on apparent viscosity (ηa,100) was described by the Arrhenius equation. The activation energy values (Ea = 10.7–13.9 kJ/mol) of OSA starches were lower than that (Ea = 15.9 kJ/mol) of native starch. Dynamic frequency sweep test showed that both storage modulus (G′) and loss modulus (G′′) of OSA starch pastes increased with the increase in OSA content. Dynamic (η*) and steady shear (ηa) viscosities of OSA starch pastes at various OSA contents did not follow the Cox‐Merz superposition rule.

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Effect of temperature on dynamic rheology of Korean honeys

Yoo

2004

Journal of Food Engineering

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Byoungseung Yoo

Rheological properties of rice starch–xanthan gum mixtures

Dynamic rheology of corn starch–sugar composites

Effects of sugars and sugar alcohols on thermal transition and cold stability of corn starch gel

Rheological Characteristics of Cold Thickened Beverages Containing Xanthan Gum–Based Food Thickeners Used for Dysphagia Diets

Effect of hydroxypropylation on physical and rheological properties of sweet potato starch

Steady and Dynamic Shear Rheological Properties of Gum-Based Food Thickeners Used for Diet Modification of Patients with Dysphagia: Effect of Concentration

Effect of Octenylsuccinylation on Rheological Properties of Corn Starch Pastes

Effect of temperature on dynamic rheology of Korean honeys

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