PENGARUH ENERGI TERMAL DAN MEKANIK TERHADAP TRASNFORMASI LINKOMISIN HIDROKLORIDA I DAN II
Mechanical energy from grinding and thermal energy that exposed to active pharmaceutical ingredients during various pharmaceutical development processes could cause transformation such as polymorphic transformation, desolvation from solvate, hydrate formation, and transformation from crystalline...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/45411 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Mechanical energy from grinding and thermal energy that exposed to active
pharmaceutical ingredients during various pharmaceutical development processes could
cause transformation such as polymorphic transformation, desolvation from solvate,
hydrate formation, and transformation from crystalline to amorphous form. Thus,
transformation of pharmaceutical ingredients could cause physical alterations that would
affect the quality of dosage forms. Consequently, it is important to understand the
transformation phenomena of active pharmaceutical ingredients that could occur during
pharmaceutical development processes. Therefore, this study is conducted to analyze the
effect of thermal and mechanical energy on lincomycin hydrochloride form I
(hemihydrate) and form II (monohydrate) transformation. Thermal energy is applied by
heating the sample at 90
o
C for an hour. And the mechanical energy is applied by grinding
the sample using mortar grinder for 30 minutes. Characterization was performed using
polarization microscope, powder X-ray diffraction (PXRD), differential scanning
calorimetry (DSC), thermogravimetric analysis (TGA), and Karl Fischer titration. PXRD
diffractogram of form I remain unchanged on thermal energy exposure even after the form
I already has dehydrated. Result analysis of DSC, Karl Fischer titration, and rehydration
curve shown that thermal energy could transform lincomycin hydrochloride I into its
isomorphic dehydrate form. The isomorphic dehydrate form in the typical room condition
immediately stabilize its crystal structure within few minutes by reabsorbing water from
atmosphere, while form II did not change or transform by heating at 90
o
C. Meanwhile
mechanical energy exposure has decreased the intensity of PXRD diffractogram and
endothermic peak of DSC thermogram of both polymorph forms. Therefore mechanical
energy could transform crystalline form of both polymorphs into its amorphous form and
significantly decrease its crystallinity index.
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