Effect of Gelling Agent Type on the Physical Properties of Nanoemulsion-Based Gels

Author:

Riquelme Natalia1ORCID,Savignones Constanza1,López Ayelén1,Zúñiga Rommy N.2ORCID,Arancibia Carla1ORCID

Affiliation:

1. Department of Food Science and Technology, Technological Faculty, Universidad de Santiago de Chile, Obispo Umaña 050, Estación Central 9170201, Chile

2. Department of Biotechnology, Universidad Tecnológica Metropolitana, Las Palmeras, 3360, Ñuñoa 7800003, Chile

Abstract

Senior populations may experience nutritional deficiencies due to physiological changes that occur during aging, such as swallowing disorders, where easy-to-swallow foods are required to increase comfort during food consumption. In this context, the design of nanoemulsion-based gels (NBGs) can be an alternative for satisfying the textural requirements of seniors. This article aimed to develop NBGs with different gelling agents, evaluating their physical properties. NBGs were prepared with a base nanoemulsion (d = 188 nm) and carrageenan (CA) or agar (AG) at two concentrations (0.5–1.5% w/w). The color, rheology, texture, water-holding capacity (WHC) and FT-IR spectra were determined. The results showed that the CA-based gels were more yellow than the AG ones, with the highest hydrocolloid concentration. All gels showed a non-Newtonian flow behavior, where the gels’ consistency and shear-thinning behavior increased with the hydrocolloid concentration. Furthermore, elastic behavior predominated over viscous behavior in all the gels, being more pronounced in those with AG. Similarly, all the gels presented low values of textural parameters, indicating an adequate texture for seniors. The FT-IR spectra revealed non-covalent interactions between nanoemulsions and hydrocolloids, independent of their type and concentration. Finally, the CA-based gels presented a higher WHC than the AG ones. Therefore, NBG physical properties can be modulated according to gelling agent type in order to design foods adapted for seniors.

Funder

Vicerrectoria de Investigación, Innovación y Creación

Publisher

MDPI AG

Subject

Colloid and Surface Chemistry,Chemistry (miscellaneous)

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