Simin Hedayatnia scite author profile

Water-in-oil-in-water (W 1 /O/W 2) double emulsion is one of the most efficient drug delivery systems. In the double emulsion, the release of a target compound from one phase to another can be controlled by the emulsion composition, emulsification and preparation condition. Tween 80 is mainly used as a high HLB emulsifier; while it may cause many side effects on the human health. The main goal of the present study was to investigate the efficiency of a new hybrid polymer (pectin-pea protein isolate conjugate) as a potential alternative for Tween 80. In this study, the efficiency of different types and concentrations of hydrophilic emulsifier (i.e. Tween 80, native pectin and pectin-PPI conjugate) and hydrophobic emulsifier (i.e. PGPR) on the release behavior of Tartrazine as a marker and other characteristics of W 1 /O/W 2 double emulsion were investigated. The double emulsion containing 2% pectin-PPI conjugate and 2% PGPR had proper encapsulation stability (37.05%). Conversely, the sample stabilized with Tween 80 (2%) and PGPR (either 2% or 5%) had relatively poor encapsulation stability after one-month storage (8.97% and 6.35%, respectively). In most cases, the double emulsion stabilized with pectin-PPI conjugate provided stronger encapsulation properties, smaller droplets, and higher zeta potential than other emulsions containing the native pectin and Tween 80. The current study reveals that the pectin-PPI conjugate (3:1) can be used a proper replacer for Tween 80 in stabilizing the double emulsion. The application of pectin-PPI conjugate in the double emulsion led to reduce the percentage of PGPR in the formulation, providing safer product.

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Antioxidant activity enhancement of biodegradable film as active packaging utilizing crude extract from durian leaf waste

Kam

Mirhosseini

Abas

et al. 2018

Food Control

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Modification of physicochemical and mechanical properties of a new bio-based gelatin composite films through composition adjustment and instantizing process

Hedayatnia

Tan

Kam

et al. 2019

LWT

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Effect of different fat replacers and drying methods on thermal behaviour, morphology and sensory attributes of reduced-fat coffee creamer

Hedayatnia

Mirhosseini

Amid

et al. 2016

LWT - Food Science and Technology

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This study was conducted to investigate the effects of different fat replacers (i.e. inulin, 0, 2.5, 5 and 7.5% w/w; maltodextrin, 0, 15, 20 and 25% w/w) and agglomeration process on the characteristics of the reduced-fat coffee creamer. In the current work, the partial replacement of the hydrogenated fat with inulin and maltodextrin led to provide the reduced-fat creamer with desirable characteristics as compared to a commercial creamer. In this study, the creamer containing 25% maltodextrin and 7.5% inulin showed the highest glass transition temperature (T g ) and the lowest stickiness and moisture content among all formulated creamers. All instant-creamers from two-stage drying (spray drying followed by fluidized bed drying) had lower moisture content, bulk density, and stickiness as well as higher glass transition temperature (T g ) than the regular-creamer from the one-stage spray drying only. This might confirm the significant positive impact of fluidized bed drying on the physicochemical properties and functional characteristics of the reduced fat creamer. The sensory analysis revealed that the partial replacement of fat with 25% maltodextrin and 7.5% inulin resulted in the most acceptable instant coffee creamer comparable with the commercial product.

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Improvement of Glass Transition and Flowability of Reduced-Fat Coffee Creamer: Effect of Fat Replacer and Fluidized Bed Drying

Hedayatnia

Mirhosseini

Tamnak

et al. 2016

Food Bioprocess Technol

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This study was conducted to investigate the effects of inulin (0, 2.5, 5, and 7.5 %), maltodextrin (0, 15, 20, and 25 %), and different drying processes (one-and two-stage drying) on the morphology and physicochemical properties of regular and instant reduced-fat creamers. The present study showed that the drum-dried creamer containing 0 % maltodextrin and 0 % inulin was fully sticky powder with dark brown color. It was found that the maximum increase in maltodextrin (from 0 to 25 %) and inulin (from 0 to 7.5 %) resulted in the creamer with the highest glass transition temperature and the lowest stickiness among all formulated creamers. The application of two-stage drying involving fluidized bed drying resulted in further improvement of the glass transition temperature and stickiness of the reduced fat instant creamer. The instant creamers obtained from two-stage drying had considerably higher glass transition temperature and lower bulk density than the regular creamers from one-stage drying. Such improvement could be due to the reduction of bulk density induced by fluidized bed drying. This might be because of higher porosity of the creamer particles after agglomeration. The current study revealed that the addition of high amounts of inulin and maltodextrin also played a significant role in the reduction of bulk density and further improvement of glass transition temperature (Tg) and solubility of the reduced fat creamer. The instant reduced fat creamer containing 25 % maltodextrin and 7.5 % inulin had the most desirable characteristics among all formulated creamers.

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