Investigation of Guar Gum and Xanthan Gum Influence on Essential Thyme Oil Emulsion Properties and Encapsulation Release Using Modeling Tools.

Ribeiro, Samara; Almeida, Renata; Batista, Leonardo; Lima, Janaina; Sarinho, Ana; Nascimento, Amanda; Lisboa, Hugo

Ribeiro, Samara; Almeida, Renata; Batista, Leonardo; Lima, Janaina; Sarinho, Ana; Nascimento, Amanda; Lisboa, Hugo.

Afiliação

Ribeiro S; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Almeida R; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Batista L; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Lima J; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Sarinho A; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Nascimento A; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.
Lisboa H; Unidade Académica Engenharia de Alimentos, Universidade Federal Campina Grande, Av. Aprigio Veloso 882, Campina Grande 58400-900, Paraiba, Brazil.

Foods ; 13(6)2024 Mar 07.

Article em En | MEDLINE | ID: mdl-38540806

ABSTRACT

ABSTRACT

This study explores the influence of hydrocolloid interactions between Guar Gum (GG) and Xanthan Gum (XG) on the stability and release dynamics of essential thyme oil emulsions. We systematically characterized six emulsions with varying GG and XG ratios, employing spray-drying techniques for the encapsulation process. The stability of the emulsions was quantitatively analyzed, revealing a marked decrease in stability rates correlated with higher initial emulsion activity (zero-order kinetic constant r = -0.972). Furthermore, this study demonstrated that emulsions with carefully optimized hydrocolloid ratios could achieve high encapsulation efficiency (74%) and controlled release profiles. Kinetic modeling and diffusion analyses elucidated that increased XG concentrations tend to reduce diffusivity, thereby enhancing emulsion stability. The effective diffusivity of the thyme oil within the emulsion matrix was determined to be within a range of 0.7 to 2.4 × 10-10 m2/s, significantly influencing release kinetics. The Pearson correlation matrix underlined a substantial negative association between emulsion activity and effective diffusivity (r = -0.740), indicating that denser hydrocolloid networks impede oil mobility. The findings conclusively establish that the interplay of GG and XG concentrations is pivotal in dictating the emulsion's physicochemical properties, with denser networks formed by higher XG content leading to slower oil release rates and enhanced stability. This research provides critical insights for the design of encapsulated food and pharmaceutical products, highlighting the imperative of strategic hydrocolloid selection to realize specific functional attributes and performance criteria.

Palavras-chave

emulsion; encapsulation; hydrocolloid; release kinetics

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Revista: Foods Ano de publicação: 2024 Tipo de documento: Article País de afiliação: Brasil País de publicação: Suíça

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