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The indian gooseberry fruit (Phyllanthus emblica Linn.) is a fruit rich in phenol content <br /> <br /> potentially as an antioxidant that can be beneficial to the skin. High polarity of the fenol causing <br /> <br /> low penetration through the skin. Phytosome preparation i...
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id-itb.:311132018-02-28T07:38:26Z#TITLE_ALTERNATIVE# RIDWAN NIM:20714310, SUCILAWATY Indonesia Theses INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/31113 The indian gooseberry fruit (Phyllanthus emblica Linn.) is a fruit rich in phenol content <br /> <br /> potentially as an antioxidant that can be beneficial to the skin. High polarity of the fenol causing <br /> <br /> low penetration through the skin. Phytosome preparation is widely used to increase the <br /> <br /> penetration. The aim of this study is to prepare optimum method in the form of complex <br /> <br /> between phospholipid and phenol Phyllanthus emblica Linn. extract. The formation of <br /> <br /> complex vesicles between the extracts and phospholipids were performed with 3 methods, <br /> <br /> namely solvent evaporation, antisolvent, and thin layer formation method. Then performed a <br /> <br /> complex evaluation that includes the efficiency of entrapment, particle size, and polydispersity <br /> <br /> index; complex characterization including IR spectroscopy and complex morphology using <br /> <br /> Transmission Electron Microscope (TEM) method. The results showed that the total content <br /> <br /> of phenol from the Indian gooseberry water extract obtained by 1: 10 reflux method for 3 x 2 <br /> <br /> hours was 197,46 ± 5,50 mg GAE/g of extract and the IC50 value is 14.845 ppm, whereas IC50 <br /> <br /> value of vitamin C as a standard is 3.94 ppm. Antisolvent method with a ratio between extract <br /> <br /> and phospholipid of 1: 3 with a time of sonication for 15 sec produce the most optimum <br /> <br /> efficiency of entrapment, particle size, and polydispersity index equal to 66,99%, ; 298,53 nm <br /> <br /> ± 12,04, and 0.323 ± 0.01 respectively in the formation of complex vesicles (phytosomes) <br /> <br /> between the extract and polyphenol. Evaluation of parameters using Transmission Electron <br /> <br /> Microscope and IR spectroscopy analysis also confirms phytosomr formation. Phytosome is <br /> <br /> made into cream preparation with a complex concentration of 1% indicates that the cream has <br /> <br /> physical stability for 28 days at room temperature by organoleptic, pH, and viscosity <br /> <br /> parameters. The result of permeation test showed that cream that containing phytosome has <br /> <br /> better diffusion percentage than cream that containing extract only. <br /> text |
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| description |
The indian gooseberry fruit (Phyllanthus emblica Linn.) is a fruit rich in phenol content <br />
<br />
potentially as an antioxidant that can be beneficial to the skin. High polarity of the fenol causing <br />
<br />
low penetration through the skin. Phytosome preparation is widely used to increase the <br />
<br />
penetration. The aim of this study is to prepare optimum method in the form of complex <br />
<br />
between phospholipid and phenol Phyllanthus emblica Linn. extract. The formation of <br />
<br />
complex vesicles between the extracts and phospholipids were performed with 3 methods, <br />
<br />
namely solvent evaporation, antisolvent, and thin layer formation method. Then performed a <br />
<br />
complex evaluation that includes the efficiency of entrapment, particle size, and polydispersity <br />
<br />
index; complex characterization including IR spectroscopy and complex morphology using <br />
<br />
Transmission Electron Microscope (TEM) method. The results showed that the total content <br />
<br />
of phenol from the Indian gooseberry water extract obtained by 1: 10 reflux method for 3 x 2 <br />
<br />
hours was 197,46 ± 5,50 mg GAE/g of extract and the IC50 value is 14.845 ppm, whereas IC50 <br />
<br />
value of vitamin C as a standard is 3.94 ppm. Antisolvent method with a ratio between extract <br />
<br />
and phospholipid of 1: 3 with a time of sonication for 15 sec produce the most optimum <br />
<br />
efficiency of entrapment, particle size, and polydispersity index equal to 66,99%, ; 298,53 nm <br />
<br />
± 12,04, and 0.323 ± 0.01 respectively in the formation of complex vesicles (phytosomes) <br />
<br />
between the extract and polyphenol. Evaluation of parameters using Transmission Electron <br />
<br />
Microscope and IR spectroscopy analysis also confirms phytosomr formation. Phytosome is <br />
<br />
made into cream preparation with a complex concentration of 1% indicates that the cream has <br />
<br />
physical stability for 28 days at room temperature by organoleptic, pH, and viscosity <br />
<br />
parameters. The result of permeation test showed that cream that containing phytosome has <br />
<br />
better diffusion percentage than cream that containing extract only. <br />
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RIDWAN NIM:20714310, SUCILAWATY |
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