STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL
Staphylococcus aureus has ability to internalize cell with the complex intracell persistence mechanism. Due to this characteristic, the conventional way to deliver the antibiotic to target the infection site will be less effective. NLC structure modified with chitosan conjugated with acemannan is...
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id-itb.:508202020-09-25T13:53:03ZSTUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL Luh Aldersta Harmadyanti, Ni Indonesia Final Project Rifampicin, Staphylococcus aureus, NLC, freeze-dry, cryoprotectant, cellular uptake INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/50820 Staphylococcus aureus has ability to internalize cell with the complex intracell persistence mechanism. Due to this characteristic, the conventional way to deliver the antibiotic to target the infection site will be less effective. NLC structure modified with chitosan conjugated with acemannan is developed to be the antibiotic carrier and serve the purpose the enhance the cellular uptake of the antibiotic and eventually the higher treatment effectiveness will be achieved. NLC is prepared with solvent emulsification and evaporation method which has been optimized in the previous study. Characterization of the NLC product regarding the particle size, potential zeta, particle distribution size, and morphology should be conducted to ensure whether the product has met the qualification. Stability during storage within some periods of time can be maintained and improved when the product is freeze dried. Cryoprotectant such as sucrose and trehalose in the range of concentration within 5-15% should be added to protect the product during the process. Freezing and drying ?±??±?¬???± ð??±?ð?¬®®??¬?®± ?ð?í ã?(glass transition) and Tc (collapse temperature) point, also the proper rate and duration of each process should be applied to obtain the optimum product. The freeze-dried NLC modified with chitosan-acemannan is characterized to determine its quality and to predict the stability during storage. In vitro assay with cell is conducted to determine the cell viability, ????®???¬ð?ð????ð??±??¬?ð????± ?í± ®±??????¬?d the ability of product to kill the intracellular bacteria. text |
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| description |
Staphylococcus aureus has ability to internalize cell with the complex intracell persistence mechanism.
Due to this characteristic, the conventional way to deliver the antibiotic to target the infection site will
be less effective. NLC structure modified with chitosan conjugated with acemannan is developed to
be the antibiotic carrier and serve the purpose the enhance the cellular uptake of the antibiotic and
eventually the higher treatment effectiveness will be achieved. NLC is prepared with solvent
emulsification and evaporation method which has been optimized in the previous study.
Characterization of the NLC product regarding the particle size, potential zeta, particle distribution
size, and morphology should be conducted to ensure whether the product has met the qualification.
Stability during storage within some periods of time can be maintained and improved when the
product is freeze dried. Cryoprotectant such as sucrose and trehalose in the range of concentration
within 5-15% should be added to protect the product during the process. Freezing and drying
?±??±?¬???± ð??±?ð?¬®®??¬?®± ?ð?í ã?(glass transition) and Tc (collapse temperature) point, also
the proper rate and duration of each process should be applied to obtain the optimum product. The
freeze-dried NLC modified with chitosan-acemannan is characterized to determine its quality and to
predict the stability during storage. In vitro assay with cell is conducted to determine the cell viability,
????®???¬ð?ð????ð??±??¬?ð????± ?í± ®±??????¬?d the ability of product to kill the intracellular bacteria.
|
| format |
Final Project |
| author |
Luh Aldersta Harmadyanti, Ni |
| spellingShingle |
Luh Aldersta Harmadyanti, Ni STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| author_facet |
Luh Aldersta Harmadyanti, Ni |
| author_sort |
Luh Aldersta Harmadyanti, Ni |
| title |
STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| title_short |
STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| title_full |
STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| title_fullStr |
STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| title_full_unstemmed |
STUDI LITERATUR FORMULA DAN PROSES FREEZE-DRYING SEDIAAN NANOSTRUCTURED LIPID CARRIER TERMODIFIKASI KITOSAN-ACEMANNAN SERTA PENGUJIAN INTERNALISASI PADA SEL |
| title_sort |
studi literatur formula dan proses freeze-drying sediaan nanostructured lipid carrier termodifikasi kitosan-acemannan serta pengujian internalisasi pada sel |
| url |
https://digilib.itb.ac.id/gdl/view/50820 |
| _version_ |
1822000773890834432 |