| 137 - 147 |
Microencapsulation of pesticides and their improved handling safety
Tsuji K |
| 149 - 158 |
Encapsulation of retinoids in solid lipid nanoparticles (SLN (R))
Jenning V, Gohla SH |
| 159 - 171 |
Air-filled polymeric microcapsules from emulsions containing different organic phases
Bjerknes K, Braenden JU, Braenden JE, Skurtveit R, Smistad G, Agerkvist I |
| 173 - 181 |
In vivo evaluation of submicron emulsions with pilocarpine: the effect of pH and chemical form of the drug
Sznitowska M, Janicki S, Zurowska-Pryczkowska K, Mackiewicz J |
| 183 - 189 |
Characterization of protein-loaded poly(epsilon-caprolactone) microparticles based on a factorial design
Lin WJ, Huang LI, Chang RRL |
| 191 - 197 |
Influence of pluronics on protein-loaded poly(epsilon-caprolactone) microparticles
Lin WJ, Huang LI |
| 199 - 209 |
Microencapsulation of ascorbic acid: effect of process variables on product characteristics
Uddin MS, Hawlader MNA, Zhu HJ |
| 211 - 221 |
Characterization of calcitonin-containing liposome formulations for intranasal delivery
Law SL, Shih CL |
| 223 - 236 |
Encapsulating aspirin into a surfactant-free ethyl cellulose microsphere using non-toxic solvents by emulsion solvent-evaporation technique
Yang CY, Tsay SY, Tsiang RCC |
| 237 - 245 |
Chitosan/gelatin microspheres prepared by modified emulsification and ionotropic gelation
Shu XZ, Zhu KJ |
| 247 - 260 |
Preparation and characterization of hCG-loaded polylactide or poly( lactide-co-glycolide) microspheres using a modified water-in-oil-in-water (w/o/w) emulsion solvent evaporation technique
Zhu KJ, Jiang HL, Du XY, Wang J, Xu WX, Liu SF |
