NANOSTRUCTURED LIPID CARRIER (NLC) FORMULATION OF CENTELLA ASIATICA EXTRACT TO INCREASE ITS XANTHINE OXIDASE INHIBITORY ACTIVITY
Xanthine oxidase acts as a catalyzer for purine production which then will form uric acid. An excessive production of uric acid in the body will lead to hyperuricemia and gout disorders. Pegagan herbs extract (Centella asiatica) has a potential to treat gout disorders though its activity is very...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/73705 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Xanthine oxidase acts as a catalyzer for purine production which then will form uric acid. An
excessive production of uric acid in the body will lead to hyperuricemia and gout disorders. Pegagan
herbs extract (Centella asiatica) has a potential to treat gout disorders though its activity is very
weak compared to other drugs. The objective of this research was to make an nanostrucutred lipid
carrier for pegagan extract (NLC-EP) and increasing its activity as an xanthine oxidase inhibitor. The
NLC development started with lipid screening, surfactant, and process optimization. Formula
optimization was carried out using Box-Behnken design. The method used to produce NLC-EP was
high shear homogenization and ultrasonication. Characterization of the formula include its
organoleptic properties, particle size, polydispersity index, zeta potential, pH, and encapsulation
efficiency. The optimum formula for NLC-EP contains 0,1% (b/v) pegagan extract, 3% (b/v) lipid with
9:1 stearic acid and oleic acid ratio, and 8% (b/v) surfactant which consists tween 80 and tegocare
165. NLC-EP had an average particle size of 266,10 ± 13,57 nm, spheric particle, polydispersity index
0,303 ± 0,01, pH 5,01 ± 0,02, zeta potential -30,52 mV and 90,81± 3,37% encapsulation efficiency.
NLC-EP showed a 50% inhibition of xanthine oxidase in 28,05 ± 0,31 ppm. There was an increase of
NLC-EP xanthine oxidase inhibitory compared to the extract. NLC-EP had a physical and chemical
stability in 4°C storage condition.
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