| 823 - 831 |
Solid lipid microparticles containing loratadine prepared using a Micromixer
Milak S, Medlicott N, Tucker IG |
| 832 - 843 |
The role of microsphere fabrication methods on the stability and release kinetics of ovalbumin encapsulated in polyanhydride microspheres
Determan AS, Graham JR, Pfeiffer KA, Narasimhan B |
| 844 - 854 |
Stabilizing effects of calcium alginate microspheres on mycobacterium bovis BCG intended for oral vaccination
Dobakhti F, Rahimi F, Dehpour AR, Taghikhani M, Ajdary S, Rafiei S, Rafiee-Tehrani M |
| 855 - 862 |
Lymphatic uptake of lipid nanoparticles following endotracheal administration
Videira MA, Gano L, Santos C, Neves M, Almeida AJ |
| 863 - 874 |
Visualization of the release behaviour of microcapsules
Lefenfeld M, Daftary DA, Yu CH, Thies C |
| 875 - 886 |
Formulation, characterization and pharmacokinetic evaluation of gentamicin sulphate loaded albumin microspheres
Haswani DK, Nettey H, Oettinger C, D'Souza MJ |
| 887 - 898 |
Preparation of sub-100-nm beta-lactoglobulin (BLG) nanoparticles
Ko S, Gunasekaran S |
| 899 - 911 |
Sustained release of propranolol hydrochloride based on ion-exchange resin entrapped within polystyrene microcapsules
Halder A, Sa B |
| 912 - 927 |
Influence of viscosity and uronic acid composition of alginates on the properties of alginate films and microspheres produced by emulsification
Lee HY, Chan LW, Dolzhenko AV, Heng PWS |
