Your browser doesn't support javascript.
loading
Novel patchouli alcohol ternary solid dispersion pellets prepared by poloxamers
IJPR-Iranian Journal of Pharmaceutical Research. 2015; 14 (1): 15-26
in En | IMEMR | ID: emr-154863
Responsible library: EMRO
The present study investigates the possibility of using poloxamers as solubility and dissolution rate enhancing agents of poorly water soluble bioactive constituent patchouli alcohol [PA] that can be used for the preparation of immediate release pellets formulation. Two commercially available grades poloxamer 188 [P 188] and poloxamer 407 [P 407] were selected, and solid dispersions [SDs] containing different weight ratio of PA and poloxamers, and the combination of P 188 and P 407 as dispersing carriers of ternary solid dispersions [tSDs] were prepared by a low temperature melting method and solidified rapidly by dropping into the 10-15 °C condensing agent atoleine. Both PA/P 188 and PA/P 407 binary solid dispersions [bSDs] could remarkably promote the dissolution rate of PA, increasing approximately 16 times in bSDs with poloxamers in comparison with pure PA within 180 min. P188 contributed to a faster dissolution rate than P 407, however, P 407 had a better solubility. It is interesting to note that the incorporation of P 188 in PA/P 407 bSD pellets could strongly enhance the dissolution rate of PA. DSC and FTIR were used to explore the characteristics of PA-SD pellets. The enhancement of dissolution from the SDs may be attributed partly to the reduction in particle size in PA crystalline due to the formation of eutectic system with poloxamers. Moreover, a simple, accurate in-vitro dissolution test method for volatility drug was established, and the process of PA-SD pellets preparation was simple, rapid, cost effective, uncomplicated and potentially scalable
Subject(s)
Search on Google
Index: IMEMR Main subject: Poloxamer Language: En Journal: Iran. J. Pharm. Res. Year: 2015
Search on Google
Index: IMEMR Main subject: Poloxamer Language: En Journal: Iran. J. Pharm. Res. Year: 2015