The Influence of Dissolved H_20 Content in Supercritical Carbon Dioxide to the Inclusion Complexes Formation of Ketoprofen/β-Cyclodextrin

摘要

This work studies the relation between dissolved H_20 content in supercritical carbon dioxide (SC-CO_2) with the formation of ketoprofen (KP)/β-cyclodextrin(CD) inclusion complexes. The process involves a physical mixture of these two compounds into contact with the supercritical carbon dioxide which had been previously saturated with H_20 over a certain duration. The pressure used for saturation process is 130 bar and saturation temperature was ranged between 30 °C to 50 °C. The inclusion process was achieved by keeping it for 2 hours at 160 bar and 200 bar with inclusion temperature of 50 °C . The results enable us to suggest explanations for the inclusion formation. The inclusion complexes can be formed by contacting the dissolved H_2O in SC-CO_2 to the physical mixture of KP and CD. An increase in the temperature of saturation process resulted in an increase of dissolved H_2O content in the supercritical carbon dioxide. The increasing levels of this water soluble resulted an increase in the inclusion complexes that has been formed. The formation of inclusion complexes includes the water molecules enhancing the emptying of the CD cavities and being replaced by KP, towards a more stable energy state. The drug release used for analyzing the dissolution rate of the KP/CD complexes. The results vary from 79,85% to 99,98% after 45 minutes which is above the rate that has been assigned by Farmakope Indonesia at 70% dissolution rate for KP. The use of SC-CO_2 offers a new methods for increasing the rate of dissolution of drugs that are hydrophobic such as KP. CO_2 used as a supercritical fluid because of its relatively low cost, easily obtainable supercritical conditions, and lack of toxicity. The material samples were characterized by DSC and Spectrophotometer UV-vis technique.