Crystallization of silibinin from organic solutions using supercritical and aqueous antisolvents

Silibinin, an anticancer drug, was crystallized from organic solutions using supercritical and aqueous antisolvents. Silibinin was dissolved in acetone and ethanol at concentration range of 0.01–0.04 g/mL, and the drug solutions were placed in contact with two different antisolvents, carbon dioxide and water. The mixing of the drug solutions and antisolvents led to the prompt precipitation of silibinin in a solid crystal form. The experimental variables, such as temperature, solution concentration, mixing rate and solution/antisolvent volume ratio were manipulated. When the experiments were conducted with a supercritical antisolvent, the effects of external additives on the crystal habit were examined. α-d-Glucose penta acetate, triton X-100 and urea were added to the solution at concentration range of 0.001–0.003 g/mL as external additives. The temperature increase of 20 °C induced 25% increase in particle size. As the solution concentration was increased from 0.01 to 0.04 g/mL, the average particle size decreased from 35.5 to 22.0 μm in supercritical antisolvent experiments, while the particle size increased from 8.9 to 30.4 μm in aqueous antisolvent experiments. The use of different kinds of external additives resulted in different modifications of the particle shape and structures.