| 433 - 441 |
Nanoprecipitation technique for the encapsulation of agrochemical active ingredients
Boehm AL, Martinon I, Zerrouk R, Rump E, Fessi H |
| 443 - 448 |
Study of the microencapsulation of camu-camu (Myrciaria dubia) juice
Taxi CMAD, De Menezes HC, Santos AB, Grosso CRF |
| 449 - 458 |
Influence of process parameters of high-pressure emulsification method on the properties of pilocarpine-loaded nanoparticles
Yoncheva K, Vandervoort J, Ludwig A |
| 459 - 472 |
The characteristics of betamethasone-loaded chitosan microparticles by spray-drying method
Huang YC, Yeh MK, Cheng SN, Chiang CH |
| 473 - 478 |
Controlled release of vancomycin from freeze-dried chitosan salts coated with different fatty acids by spray-drying
Cerchiara T, Luppi B, Bigucci F, Petrachi M, Orienti I, Zecchi V |
| 479 - 488 |
Characterization of FITC-albumin encapsulated poly(DL-lactide-co-glycolide) microspheres and its release characteristics
Sun SW, Jeong YI, Jung SW, Kim SH |
| 489 - 496 |
Microencapsulation of lipid nanoparticles containing lipophilic drug
Lee KE, Cho SH, Lee HB, Jeong SY, Yuk SH |
| 497 - 508 |
Preparation of microcapsules and control of their morphology
Kiyoyama S, Shiomori K, Kawano Y, Hatate Y |
| 509 - 524 |
Microencapsulation of hydrophilic drug substances using biodegradable polyesters. Part I: Evaluation of different techniques for the encapsulation of pamidronate di-sodium salt
Weidenauer U, Bodmer D, Kissel T |
| 525 - 536 |
Immune responses to orally administered PLGA microparticles: influence of oil vehicles and surfactive agents
Gutierro I, Hernandez RM, Igartua M, Gascon AR, Pedraz JL |
