EFFECT OF EXCIPIENTS AS PRECIPITATION INHIBITOR ON PHASE TRANSFORMATION AND DISSOLUTION PROFILE OF CARBAMAZEPINE-SACCHARIN COCRYSTAL TABLETS
Poorly water-soluble drugs present ongoing challenges in translating them into viable medicinal products. Oral absorption of poorly soluble drugs may be incomplete, variable, and less than proportional to dose. To overcome limited oral absorption, currently many medicinal ingredients are being...
Saved in:
| Main Author: | |
|---|---|
| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/80361 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Poorly water-soluble drugs present ongoing challenges in translating them into viable
medicinal products. Oral absorption of poorly soluble drugs may be incomplete, variable, and
less than proportional to dose. To overcome limited oral absorption, currently many medicinal
ingredients are being developed as supersaturated active pharmaceutical ingredients (sAPI),
such as cocrystals, salts, metastable crystalline forms, and amorphous solid forms. For nonionized drugs, one alternative is to form cocrystals. The solubility advantage of pharmaceutical
cocrystals at supersaturation concentrations presents the risk of precipitation to less soluble
crystalline forms during the dissolution process due to the solution-mediated phase
transformation (SMPT) phenomenon. The strategy is to include precipitation inhibitor
polymers (PPIs) in the formula, HPMC being one of the most effective PPIs in inhibiting drug
precipitation and improving dissolution behavior as well as maintaining cocrystal
supersaturation. The aim of this research was to determine the effect of the single excipient
HPMC and the combination excipient HPMC + MCC and HPMC + primojel as precipitation
inhibitors on the phase transformation and dissolution profile of cocrystals in tablets. This
study highlights the importance of exploring cocrystal form conversion in aqueous media and
illustrates the potential for simple formulations that can be produced based on an efficient and
material-saving approach. Carbamazepine cocrystal (CBZ III) and saccharin coformer (SAC)
were chosen as model compounds for this study because of their tendency toward precipitation.
The results of this study indicate that the use of combined excipients (HPMC + MCC) and
(HPMC + primojel) does not show a significant synergistic effect in inhibiting precipitation
and increasing the solubility and dissolution of CBZ-SAC cocrystals. The use of a single
excipient HPMC with a concentration of 6.5% (w/w) in CBZ-SAC cocrystal tablets shows a
dissolution profile that meets the dissolution requirements of test 2 according to the monograph
where the amount of substance dissolved at 15 minutes is in the range of 45 – 75% and at 60
minutes not less than 75% and is supported by good flowability and tabletability.
|
|---|