FORMULASI NANOPARTIKEL HBsAg DENGAN EKSTRAK Phyllanthus niruri L. SEBAGAI ADJUVAN DAN UJI MATURASI SEL DENDRITIK DENGAN MARKA MOLEKUL CD40, CD86, DAN CD83
The effectiveness of hepatitis B vaccine by intravenous injection has worked well in reducing transmission of the disease. However, repeated administration makes patients uncomfortable. We offered an alternative strategy to deliver HBsAg loaded nanoparticles by oral administration. To overcome th...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/44178 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The effectiveness of hepatitis B vaccine by intravenous injection has worked well in reducing
transmission of the disease. However, repeated administration makes patients uncomfortable. We
offered an alternative strategy to deliver HBsAg loaded nanoparticles by oral administration. To
overcome the issue of low immune response, in the present study, we attempted to enhance it by
loading Phyllanthus niruri (P. niruri) L. along with HBsAg into nanoparticles. Nanoparticles were
prepared by ionic gelation method using chitosan polymer and sodium tripolyphosphate as cross
linker. Concentration of HBsAg used was 10 µg/mL while that of P. niruri extract used was 150, 250
and 350 µg/mL, respectively. The particles were characterized by size, zeta potential, entrapment
efficiency, and the release of HBsAg. In vitro dendritic cells maturation study was conducted by
treating immature dendritic cells by the nanoparticles. The percentage of dendritic cell maturation
was determined by measuring the intensity of CD40, CD83 and CD86 with flowcytometry as mature
dendritic cell marker molecule. Nanoparticles were having a size of 180-300 nm and a positive zeta
potential of 27-32 mV. Entrapment efficiency study showed that 83-91% HBsAg and 61-84% P. niruri
extract were entrapped in nanoparticles. In vitro released study exhibited that more than 90% HBsAg
and P. niruri exctract were released within 2 hours. Furthermore, maturation study showed that
HBsAg-P. niruri loaded nanoparticles has significant maturation (p<0,05) compared with that of
HBsAg nanoparticles in concentrations of P. niruri extracts 250 and 350 µg/mL and costimulatory
molecules used. Nanoparticles loading HBsAg and P. niruri were a potential carrier to induce
maturation dendritic cells.
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