Use of lipid nanocarriers to improve oral delivery of vitamins
The chemical environment and enzymes in the gastrointestinal (GI) membrane limit the oral
absorption of some vitamins. The GI epithelium also contributes to the poor permeability of …
absorption of some vitamins. The GI epithelium also contributes to the poor permeability of …
QbD-based development of cationic self-nanoemulsifying drug delivery systems of paclitaxel with improved biopharmaceutical attributes
The present studies describe quality-by-design-based design and characterization of
cationic self-nanoemulsifying formulations of paclitaxel for improving its biopharmaceutical …
cationic self-nanoemulsifying formulations of paclitaxel for improving its biopharmaceutical …
Surfactant-Free Microemulsion Based on CO2-Induced Ionic Liquids
Y Zhang, D Liu, S Dai, H Lu - The Journal of Physical Chemistry B, 2019 - ACS Publications
A novel surfactant-free microemulsion (SFME) based on CO2-induced ionic liquids (ILs) was
prepared. Among them, dipropylamine (DPA) was directly reacted with CO2 to form the ILs …
prepared. Among them, dipropylamine (DPA) was directly reacted with CO2 to form the ILs …
Formulation development, statistical optimization and characterization of the self-microemulsifying drug delivery system (SMEDDS) of irbesartan
Background: Irbesartan is an anti-hypertensive BCS class II drug exhibiting poor aqueous
solubility, which makes it highly challenging for delivery through the oral route. Based on this …
solubility, which makes it highly challenging for delivery through the oral route. Based on this …
[PDF][PDF] Oral lipid-based drug delivery: Inhibiting and eliminating digestion to improve absorption of poorly soluble drugs.
O FEENEY - scholar.archive.org
3.1. Abstract __________________________________… 46 3.2. Introduction __________________________________…
46 3.3. Methods __________________________________… 48 3.3. 1. Materials and reagents …
46 3.3. Methods __________________________________… 48 3.3. 1. Materials and reagents …