PURPOSE: Evaluate the impact of luminal micellar phase on passive permeability of five lipophilic (1.9 ≤ clogP ≤ 9.0) small molecules using biorelevant media and evaluate the impact of luminal coarse lipid particles on danazol permeability after oral administration of a triglyceride solution to fed adults using PAMPA. METHODS: Permeability of carbamazepine, furosemide, danazol, and Compound A was evaluated using Prisma™ HT, FaSSIF-V2, and FeSSIF-V2 in the donor compartment. Compound B could not be tested using Prisma™ HT, due to negligible solubility. Individual intestinal aspirates collected after administration of danazol solution in the olive oil portion of a meal and corresponding micellar phases were subjected to PAMPA. Commercially available Acceptor Sink Buffer was used in all cases. RESULTS: Unlike with furosemide (under constant pH) and Compound B, permeability of carbamazepine, danazol, and Compound A steadily decreased in the presence of increasing micelle concentration of media. Danazol permeability from aspirates was reduced compared to that from micellar phases; fluxes were similar. CONCLUSIONS: Using PAMPA, the impact of luminal micellar phase on passive permeability of lipophilic molecules varies with the molecule. After administration of a triglyceride solution of danazol, high danazol concentrations in coarse lipid particles balance in terms of drug flux the reduced permeability.
PURPOSE: Evaluate the impact of luminal micellar phase on passive permeability of five lipophilic (1.9 ≤ clogP ≤ 9.0) small molecules using biorelevant media and evaluate the impact of luminal coarse lipid particles on danazol permeability after oral administration of a triglyceride solution to fed adults using PAMPA. METHODS: Permeability of carbamazepine, furosemide, danazol, and Compound A was evaluated using Prisma™ HT, FaSSIF-V2, and FeSSIF-V2 in the donor compartment. Compound B could not be tested using Prisma™ HT, due to negligible solubility. Individual intestinal aspirates collected after administration of danazol solution in the olive oil portion of a meal and corresponding micellar phases were subjected to PAMPA. Commercially available Acceptor Sink Buffer was used in all cases. RESULTS: Unlike with furosemide (under constant pH) and Compound B, permeability of carbamazepine, danazol, and Compound A steadily decreased in the presence of increasing micelle concentration of media. Danazol permeability from aspirates was reduced compared to that from micellar phases; fluxes were similar. CONCLUSIONS: Using PAMPA, the impact of luminal micellar phase on passive permeability of lipophilic molecules varies with the molecule. After administration of a triglyceride solution of danazol, high danazol concentrations in coarse lipid particles balance in terms of drug flux the reduced permeability.
Authors: Jonathan M Miller; Avital Beig; Brian J Krieg; Robert A Carr; Thomas B Borchardt; Gregory E Amidon; Gordon L Amidon; Arik Dahan Journal: Mol Pharm Date: 2011-08-11 Impact factor: 4.939
Authors: Mette U Anby; Hywel D Williams; Orlagh Feeney; Glenn A Edwards; Hassan Benameur; Colin W Pouton; Christopher J H Porter Journal: Pharm Res Date: 2014-01-30 Impact factor: 4.200