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Development of an in vitro system to simulate the adsorption of self-emulsifying tea (Camellia oleifera) seed oil
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Document Title
Development of an in vitro system to simulate the adsorption of self-emulsifying tea (Camellia oleifera) seed oil
Author
Sramala I., Pinket W., Pongwan P., Jarussophon S., Kasemwong K.
Name from Authors Collection
Scopus Author ID
6506659330
Scopus Author ID
57189627478
Scopus Author ID
56940723100
Affiliations
Nano Agro and Food Innovation Laboratory, National Nanotechnology Center (NANOTEC), National Science and Technology Development Agency (NSTDA), 111 Thailand Science Park, Phahonyothin Road, Khlong Nueng, Khlong Luang, Pathumthani, 12120, Thailand
Type
Article
Source Title
Molecules
ISSN
14203049
Year
2016
Volume
21
Issue
5
Open Access
All Open Access, Gold, Green
Publisher
MDPI AG
DOI
10.3390/molecules21050479
Format
Abstract
In this study, tea (Camellia oleifera) seed oil was formulated into self-emulsifying oil formulations (SEOF) to enhance the aqueous dispersibility and intestinal retention to achieve higher bioavailability. Self-emulsifying tea seed oils were developed by using different concentrations of lecithin in combination with surfactant blends (Span®80 and Tween®80). The lecithin/surfactant systems were able to provide clear and stable liquid formulations. The SEOF were investigated for physicochemical properties including appearance, emulsion droplets size, PDI and zeta potential. The chemical compositions of tea seed oil and SEOF were compared using GC-MS techniques. In addition, the oil adsorption measurement on artificial membranes was performed using a Franz cell apparatus and colorimetric analysis. The microscopic structure of membranes was observed with scanning electron microscopy (SEM). After aqueous dilution with fed-state simulated gastric fluid (FeSSGF), the droplet size of all SEOF was close to 200 nm with low PDI values and the zeta potential was negative. GC-MS chromatograms revealed that the chemical compositions of SEOF were not significantly different from that of the original tea seed oil. The morphological study showed that only the SEOF could form film layers. The oil droplets were extracted both from membrane treated with tea seed oil and the SEOF in order to evaluate the chemical compositions by GC-MS. © 2016 by the authors; licensee MDPI.
Industrial Classification
Knowledge Taxonomy Level 1
Knowledge Taxonomy Level 2
Knowledge Taxonomy Level 3
License
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Rights
N/A
Publication Source
Scopus