Stability and physical properties of model macro- and nano/submicron emulsions containing fenugreek gum

Stability and physical properties of model macro- and nano/submicron emulsions containing... Nanoemulsions were made in two steps. Firstly, a less viscous, primary O/W emulsion was prepared using ultrasounds. In those emulsions, only whey protein isolate was used as an emulsifier, whereas the oily phase was olive oil. A stabilizer, fenugreek gum, was incorporated afterwards in the primary formulations resulting in the secondary emulsions of increased viscosity. Oil amount changed and its decrease from 20 to 5% wt led to a reduced average droplet size and polydispersity index values in the primary emulsions. Nanoemulsions with the lowest polydispersity were produced at a high sonication time treatment of 12 min. Their droplet size was ∼200 nm. They showed increased viscoelastic properties and consistency leading to significantly increased stability compared to their coarse secondary emulsions produced by high shear mixing. Even the formulations with the lowest olive oil content investigated, 2.5% wt, presented an improved stability during a long-term storage of six months. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Food Hydrocolloids Elsevier

Stability and physical properties of model macro- and nano/submicron emulsions containing fenugreek gum

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Publisher
Elsevier
Copyright
Copyright © 2016 Elsevier Ltd
ISSN
0268-005X
eISSN
1873-7137
D.O.I.
10.1016/j.foodhyd.2016.06.025
Publisher site
See Article on Publisher Site

Abstract

Nanoemulsions were made in two steps. Firstly, a less viscous, primary O/W emulsion was prepared using ultrasounds. In those emulsions, only whey protein isolate was used as an emulsifier, whereas the oily phase was olive oil. A stabilizer, fenugreek gum, was incorporated afterwards in the primary formulations resulting in the secondary emulsions of increased viscosity. Oil amount changed and its decrease from 20 to 5% wt led to a reduced average droplet size and polydispersity index values in the primary emulsions. Nanoemulsions with the lowest polydispersity were produced at a high sonication time treatment of 12 min. Their droplet size was ∼200 nm. They showed increased viscoelastic properties and consistency leading to significantly increased stability compared to their coarse secondary emulsions produced by high shear mixing. Even the formulations with the lowest olive oil content investigated, 2.5% wt, presented an improved stability during a long-term storage of six months.

Journal

Food HydrocolloidsElsevier

Published: Dec 1, 2016

References

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