Influence of droplet size on the antioxidant activity of rosemary extract loaded oil-in-water emulsions in mixed systems

The influence of droplet size on the antioxidant activity of oil-in-water emulsions loaded with rosemary extract in mixed emulsion systems was investigated.

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Enhancing expected food intake behaviour, hedonics and sensory characteristics of oil-in-water emulsion systems through microstructural properties, oil droplet size and flavour

Food Quality and Preference ◽

10.1016/j.foodqual.2015.03.011 ◽

2016 ◽

Vol 47 ◽

pp. 148-155 ◽

Cited By ~ 15

Author(s):

Aaron M. Lett ◽

Martin R. Yeomans ◽

Ian T. Norton ◽

Jennifer E. Norton

Keyword(s):

Food Intake ◽

Droplet Size ◽

Sensory Characteristics ◽

Microstructural Properties ◽

Water Emulsion ◽

Oil Droplet ◽

Oil In Water ◽

Emulsion Systems ◽

Oil In Water Emulsion ◽

Oil Droplet Size

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Antioxidant Activity of a Rosemary Extract and Its Constituents, Carnosic Acid, Carnosol, and Rosmarinic Acid, in Bulk Oil and Oil-in-Water Emulsion

Journal of Agricultural and Food Chemistry ◽

10.1021/jf950374p ◽

1996 ◽

Vol 44 (1) ◽

pp. 131-135 ◽

Cited By ~ 354

Author(s):

Edwin N. Frankel ◽

Shu-Wen Huang ◽

Robert Aeschbach ◽

Elizabeth Prior

Keyword(s):

Antioxidant Activity ◽

Rosmarinic Acid ◽

Carnosic Acid ◽

Rosemary Extract ◽

Water Emulsion ◽

Bulk Oil ◽

Oil In Water ◽

Oil In Water Emulsion

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Stabilization and Release of Palm Tocotrienol Emulsion Fabricated Using pH-Sensitive Calcium Carbonate

Foods ◽

10.3390/foods10020358 ◽

2021 ◽

Vol 10 (2) ◽

pp. 358

Author(s):

Phui Yee Tan ◽

Beng Ti Tey ◽

Eng Seng Chan ◽

Oi Ming Lai ◽

Hon Weng Chang ◽

...

Keyword(s):

Calcium Carbonate ◽

Droplet Size ◽

Entrapment Efficiency ◽

Ph Sensitive ◽

Emulsion System ◽

Ph Responsive ◽

Small Droplet ◽

Homogenization Time ◽

Oil In Water ◽

Ph Range

Calcium carbonate (CaCO3) has been utilized as a pH-responsive component in various products. In this present work, palm tocotrienols-rich fraction (TRF) was successfully entrapped in a self-assembled oil-in-water (O/W) emulsion system by using CaCO3 as the stabilizer. The emulsion droplet size, viscosity and tocotrienols entrapment efficiency (EE) were strongly affected by varying the processing (homogenization speed and time) and formulation (CaCO3 and TRF concentrations) parameters. Our findings indicated that the combination of 5000 rpm homogenization speed, 15 min homogenization time, 0.75% CaCO3 concentration and 2% TRF concentration resulted in a high EE of tocotrienols (92.59–99.16%) and small droplet size (18.83 ± 1.36 µm). The resulting emulsion system readily released the entrapped tocotrienols across the pH range tested (pH 1–9); with relatively the highest release observed at pH 3. The current study presents a potential pH-sensitive emulsion system for the entrapment and delivery of palm tocotrienols.

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New approach in process intensification based on subcritical water, as green solvent, in propolis oil in water nanoemulsion preparation

Green Processing and Synthesis ◽

10.1515/gps-2021-0022 ◽

2021 ◽

Vol 10 (1) ◽

pp. 208-218

Author(s):

Fatemeh Ghavidel ◽

Afshin Javadi ◽

Navideh Anarjan ◽

Hoda Jafarizadeh-Malmiri

Keyword(s):

Antioxidant Activity ◽

Particle Size ◽

Zeta Potential ◽

Subcritical Water ◽

Process Intensification ◽

Processing Parameters ◽

Bioactive Materials ◽

Propolis Extract ◽

High Antibacterial Activity ◽

Oil In Water

Abstract Subcritical water was used to provide propolis oil in water (O/W) nanoemulsions. To monitor and detect the main bioactive compounds of the prepared propolis extract, gas chromatography demonstrated that there were 47 bioactive materials in the propolis extract, among which pinostrobin chalcone and pinocembrin were the two key components. Effectiveness of two processing parameters such as the amount of saponin (0.5–2.0 g) and propolis extract (0.1–0.6 g), on particle size, polydispersity index (PDI), zeta potential, and antioxidant activity of the provided nanoemulsions, was evaluated. Results demonstrated that more desirable propolis O/W nanoemulsion, with minimum particle size (144.06 nm) and PDI (0.286), and maximum zeta potential (−21.71 mV) and antioxidant activity (90.86%) were made using 0.50 g of saponin and 0.53 g of propolis extract. Further analysis revealed that the prepared nanoemulsion based on optimum processing conditions had spherical shaped propolis nanodroplets in the colloidal solution with turbidity and maximum broad absorption peak of 0.08 a.u. and 292 nm, respectively. The prepared nanoemulsion had high antibacterial activity against both selected bacteria strains namely, Staphylococcus aureus and Escherichia coli.

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Stability properties and antioxidant activity of curcumin nanosuspensions in emulsion systems

CyTA - Journal of Food ◽

10.1080/19476337.2020.1852315 ◽

2021 ◽

Vol 19 (1) ◽

pp. 40-48

Author(s):

Sun-Hyung Kim ◽

Eui-Seok Lee ◽

Ki-Teak Lee ◽

Soon-Taek Hong

Keyword(s):

Antioxidant Activity ◽

Stability Properties ◽

Emulsion Systems

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Astaxanthin–garlic oil nanoemulsions preparation using spontaneous microemulsification technique: optimization and their physico–chemical properties

Zeitschrift für Physikalische Chemie ◽

10.1515/zpch-2019-1545 ◽

2020 ◽

Vol 0 (0) ◽

Author(s):

Seyedalireza Mortazavi Tabrizi ◽

Afshin Javadi ◽

Navideh Anarjan ◽

Seyyed Javid Mortazavi Tabrizi ◽

Hamid Mirzaei

Keyword(s):

Antioxidant Activity ◽

Particle Size ◽

Subcritical Water ◽

Chemical Properties ◽

Polydispersity Index ◽

Garlic Oil ◽

Physico Chemical ◽

Minimum Particle Size ◽

Oil In Water ◽

Technique Optimization

AbstractGarlic oil in water nanoemulsion was resulted through subcritical water method (temperature of 120 °C and pressure of 1.5 bar, for 2 h), using aponin, as emulsifier. Based on the prepared garlic oil nanoemulsion, astaxanthin–garlic oil nanoemulsions were prepared using spontaneous microemulsification technique. Response surface methodology was employed to evaluate the effects of independent variables namely, amount of garlic oil nanoemulsion (1–9 mL) and amount of provided astaxanthin powder (1–9 g) on particle size and polydispersity index (PDI) of the resulted nanoemulsions. Results of optimization indicated that well dispersed and spherical nanodroplets were formed in the nanoemulsions with minimum particle size (76 nm) and polydispersity index (PDI, 0.358) and maximum zeta potential value (−8.01 mV), using garlic oil nanoemulsion amount of 8.27 mL and 4.15 g of astaxanthin powder. Strong antioxidant activity (>100%) of the prepared astaxanthin–garlic oil nanoemulsion, using obtained optimum amounts of the components, could be related to the highest antioxidant activity of the colloidal astaxanthin (>100%) as compared to that of the garlic oil nanoemulsion (16.4%). However, higher bactericidal activity of the resulted nanoemulsion against Escherichia coli and Staphylococcus aureus, were related to the main sulfur bioactive components of the garlic oil in which their main functional groups were detected by Fourier transform-infrared spectroscopy.

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