PT - JOURNAL ARTICLE AU - Afrouz Yousefi AU - Elham Khodaverdi AU - Fatemeh Atyabi AU - Rassoul Dinarvand TI - Thermosensitive Drug Permeation through Liquid Crystal-Embedded Cellulose Nitrate Membranes DP - 2010 Jan 01 TA - PDA Journal of Pharmaceutical Science and Technology PG - 54--62 VI - 64 IP - 1 4099 - http://journal.pda.org/content/64/1/54.short 4100 - http://journal.pda.org/content/64/1/54.full SO - PDA J Pharm Sci Technol2010 Jan 01; 64 AB - In this study, the application of thermotropic liquid crystals embedded in cellulose nitrate membranes as on-off drug permeation control in response to temperature changes is described. Two low-molecular-weight liquid crystals, n-pentyl-cyanobiphenyl (K15) and n-heptyl-cyanobiphenyl (K21), with nematic-to-isotropic phase transition temperatures (Tn-i) of 36.3 °C and 43.3 °C, respectively, were used to modulate drug permeation through the membrane. Liquid crystal-embedded membranes composed of appropriate blends of K15 and K21 were prepared by vacuum filtration. The permeation of pyrazinamide and metronidazole as drug models with different hydrophilicity and molecular weights through the liquid crystal-embedded membrane was examined. It was found that the drug permeation through the membrane could be modulated by changing the temperature below and above the Tn-i of liquid crystals. The permeation of pyrazinamide, the hydrophilic drug with smaller molecular weight, was more temperature-dependent than metronidazole, the hydrophobic drug with higher molecular weight. These experiments were also repeated with thermal cycling between 25 °C and 45 °C. The permeation profiles were reversible and followed zero-order kinetics.© PDA, Inc. 2010