This study aimed at investigating the effect of coffee formulation and high-pressure homogenization (HPH) on chlorogenic acid bioaccessibility and alpha-glucosidase inhibition. Coffee was added with milk (1:1) containing 0.1, 3.6 or 7.1% fat, homogenized at increasing pressure (0-150 MPa) and in vitro digested. Using milk with the highest fat concentration (7.1%) promoted the formation of smaller particles after HPH treatment, as well as upon digestion. Digested samples with the highest fat content also presented lower zeta-potential, suggesting higher stability. Chlorogenic acids (CGAs) bioaccessibility and alpha-glucosidase inhibition were evaluated upon in vitro digestion. CGAs bioaccessibility increased from nearly 25% to > 50% by adding milk and using HPH. These could promote CGAs micellarization, reducing their susceptibility to degradation during digestion. Properly combined milk and HPH also improved alpha-glucosidase inhibitory effect. No correlation was found between CGAs bioaccessibility and alpha-glucosidase inhibition, suggesting that other components may govern antidiabetic properties of coffee.

Fat concentration and high-pressure homogenization affect chlorogenic acid bioaccessibility and α-glucosidase inhibitory capacity of milk-based coffee beverages

Alongi, Marilisa
Primo
;
Calligaris, Sonia;Anese, Monica
Ultimo
2019-01-01

Abstract

This study aimed at investigating the effect of coffee formulation and high-pressure homogenization (HPH) on chlorogenic acid bioaccessibility and alpha-glucosidase inhibition. Coffee was added with milk (1:1) containing 0.1, 3.6 or 7.1% fat, homogenized at increasing pressure (0-150 MPa) and in vitro digested. Using milk with the highest fat concentration (7.1%) promoted the formation of smaller particles after HPH treatment, as well as upon digestion. Digested samples with the highest fat content also presented lower zeta-potential, suggesting higher stability. Chlorogenic acids (CGAs) bioaccessibility and alpha-glucosidase inhibition were evaluated upon in vitro digestion. CGAs bioaccessibility increased from nearly 25% to > 50% by adding milk and using HPH. These could promote CGAs micellarization, reducing their susceptibility to degradation during digestion. Properly combined milk and HPH also improved alpha-glucosidase inhibitory effect. No correlation was found between CGAs bioaccessibility and alpha-glucosidase inhibition, suggesting that other components may govern antidiabetic properties of coffee.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/1149728
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