ISSN: 7027-2221

Keywords : PEG

Effect of water-soluble polymers and cosolvent on with candisartan– cyclodextrin complex solubility


karbala journal of pharmaceutical sciences, Volume 6, Issue 10, Pages 0-0

Objective: The aim of the study is to find the candesartan celexitile (CC) solubility profile in the
presence of ß-cyclodexrin, poloxamer 188 and PEG 400 and the synergism effect of the cosolvency
of PEG 400 and the solubilizing effect of polymer poloxamer 188 on the drug cyclodextrin
Methods: An excess amount of (CC) was added to 10 mL aqueous solutions containing range
concentrations of either poloxamer 188 (0−0.4% w/v), β-CD (0−1%, w/v) or PEG (0−50%,v/v) at
25±1 ºC separately. The mixtures of aqueous solution were shaken in a thermostated water bath at
25°C ± 2 for 24 h to reach equilibrium. After that, all the suspensions were filtered through 0.22 μm
syringe filter and assayed for (CC) by UV Spectrophotometer at ʎ of 255 nm. Phase solubility
diagrams were plotted with (CC) solubility versus either ß-CD, poloxamer or PEG 400
concentration separately.
Results: It was found that the solubility of (CC) increased with the increasing concentration of
poloxamer188, PEG 400 or ß-CD. The phase solubility curves of (CC) in aqueous solution at 25°C
of ß-CD was of Higuchi’s AL-type confirming the formation of 1:1 complexes. The synergism
effect of poloxamer 188 and PEG 400 on the solubility of (CC) in the presence ß-CD was marked.
The values of stability constants (Ksp) of drug- ß-CD complexes and in the presence of PEG 400 or
poloxamer 188 with 0.4 mg / ml ß-CD were 59.7, 5.8 and 195.8 M-1 respectively. Addition of
poloxamer 188 to the drug-ß-CD complex increase the constant stability while addition of PEG 400
decrease the constant stability of the complex.
Conclusion: The solubility profile of (CC) in the presence of CD followed Higuchi equation
confirming the formation of 1:1complexes of AL-type. The synergism effect of the polymer on the
CC-CD complexes was significant.