PEMBUATAN, KARAKTERISASI DAN PENETAPAN KINERJA FARMASETIKA KRISTAL MULTIKOMPONEN LEVOFLOKSASIN MONOHIDRAT-ASAM SALISILAT
Levofloxacin is a fluoroquinolone antibacterial compound which is slightly soluble in water. Cocrystal in pharmacy is an important approach for optimizing the physicochemical properties of pharmaceutically active ingredient molecules. This research aims to produce cocrystal levofloxacin monohydra...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/48665 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Levofloxacin is a fluoroquinolone antibacterial compound which is slightly soluble in water. Cocrystal
in pharmacy is an important approach for optimizing the physicochemical properties of
pharmaceutically active ingredient molecules. This research aims to produce cocrystal levofloxacin
monohydrate (LM) with salicylic acid coformer (AS) which is expected to have better solubility to
increase the bioavailability of levofloxacin. This research was initiated by making a physical mixture of
LM-AS (1:1) with various molar comparisons and tested using electrothermal, which indicates that
cocrystal will form at a ratio of 1:1. Then, the solvent is optimized by using ethanol, methanol, and
water as solvents. The multicomponent system was characterized using FTIR spectroscopy, thermal
analysis using electrothermal and DTA/TG, diffraction analysis using PXRD, and structure analysis using
1
H NMR. Finally, the solubility test is performed on the multicomponent system to compare the
performance of the multicomponent system against a single LM. Specific peaks in FTIR characterization
are 1709, 1624, 1535, and 3433 cm
-1
which indicate the formation of intermolecular hydrogen bonds
between LM-AS carboxylic acid groups. In NMR analysis, the involvement of hydroxyl protons in strong
hydrogen bonds to the study of NMR conformations in solution presents an experimental challenge
because of the rapid chemical exchange between hydroxyl groups and H2O residues in aprotic solvents.
Thermal analysis showed endothermic peaks at 216.262°C and 265.219°C, which represent melting
point and total crystal decomposition. Diffractogram revealed several peaks with high intensity at
diffraction angle values of 4.26°C; 12.05°; 13.33°; 14.87°; 17.25°; 18.22°; 22.00° and 25.83° which differ
from every single component. All the results of the characterization analysis suggested that the
multicomponent system obtained was a new crystalline phase, suspected to be cocrystal. To obtain an
efficient process, the solubility test is carried out with cocrystal made by fast evaporation (FE) method
and in a medium of pH 1.2, pH 6.8, and water. From the solubility test results, the solubility of the
multicomponent system at all pH showed a decrease in solubility, with the level of cocrystal solubility
equal with increasing pH of the medium.
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