PT  - JOURNAL ARTICLE
AU  - Son, Kyonghee
AU  - Alkan-Onyuksel, Hayat
TI  - Physical Stability of Teniposide in Bile Salt-Egg Phosphatidylcholine Mixed Micelles and Liposomes
DP  - 1996 Mar 01
TA  - PDA Journal of Pharmaceutical Science and Technology
PG  - 89--93
VI  - 50
IP  - 2
4099  - http://journal.pda.org/content/50/2/89.short
4100  - http://journal.pda.org/content/50/2/89.full
SO  - PDA J Pharm Sci Technol1996 Mar 01; 50
AB  - Teniposide-containing bile salt-egg PC mixed micelles and their liposomes formed from dilution were investigated and compared for (i) their teniposide contents as a function of bile salt species, drug dose, the egg PC/BS molar ratio, total lipid concentration, ionic strength and storage states (freeze-thawed and freeze-dried state, and the presence of light and oxygen) and (ii) their mean particle size, stored under different conditions. The physical stability of teniposide in micelles and their liposomes increased with increasing hydrophobicity of bile salt the order being deoxycholate > cholate > conjugated cholate at all temperatures (10°C, 23°C, and 45°C) studied. Teniposide-micelles were more stable at lower egg PC/BS molar ratios, while teniposide-liposomes were more stable at higher ratios. Teniposide stability slightly increased at higher total lipid concentration, indicating that bile salt-egg PC mixed micellar systems were in dynamic states. The presence of neither light nor oxygen significantly affected the stability of teniposide over the time and temperature range studied. However, the presence of salt in micellar and liposomal solutions greatly reduced teniposide loss by precipitation. Freezing or freeze-drying of teniposide-micelles induced neither micellar aggregation nor drug leakage. The stabilization may be due to the presence of detergent-like bile salts in the system.