FORMULASI DAN KARAKTERISASI SOLID LIPID NANOPARTICLE ASAM AZALEAT DAN UJI AKTIVITAS ANTIBAKTERI PENYEBAB JERAWAT CUTIBACTERIUM ACNES SECARA IN VITRO
Azelaic acid is effective to treat acne. Nevertheless, it is poorly soluble, poorly skin penetration, and low antibacterial activity. It requires high doses and causes secondary effects such as skin irritation, erythema, dryness, peeling, and scaling. This study aims to formulate azelaic acid in s...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69163 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Azelaic acid is effective to treat acne. Nevertheless, it is poorly soluble, poorly skin penetration, and low
antibacterial activity. It requires high doses and causes secondary effects such as skin irritation, erythema,
dryness, peeling, and scaling. This study aims to formulate azelaic acid in solid lipid nanoparticles in order
increasing antibacterial activity of the azelaic acid. SLN Azelaic acid was prepared by a high-speed
homogenization method followed by sonicator. The results showed that the best SLN azelaic acid
formulation had composed of azelaic acid (5,4%), beeswax (4%), Tween 80, and plantacare with a ratio of
1:1 (3%), and distilled water (87,6%). Solid lipid nanoparticle azelaic acid was appeared white and
odorless, with a particle size of 485,6± 9,51 nm, polydispersity index of 0,258 ± 0,96, zeta potential of
?27,6 ± 4,44, pH of 4,05 ± 0,02, and encapsulation efficiency of 93,3 ± 3,47%. MIC value of SLN azelaic
acid is 312,5 µg/ml meanwhile free azaleic acid has MIC value of 1800 µg/ml. The azaleic acid loaded SLN
can increase the antibacterial activity of azaleic acid 6 fold. SLN Azelaic acid was also stable at 4o C after 28
days of storage.
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