| 277 - 284 |
Development and evaluation of sustained-release propranolol wax microspheres
Varshosaz J, Keihanfar M |
| 285 - 297 |
Release characteristics of microspheres prepared by co-spray drying Actinobacillus pleuropneumoniae antigens and aqueous ethyl-cellulose dispersion
Liao CW, Cheng IC, Yeh KS, Lin FY, Weng CN |
| 299 - 307 |
Study of processing parameters influencing the properties of Diltiazem hydrochloride microspheres
Bhalerao SS, Lalla JK, Rane MS |
| 309 - 321 |
Microencapsulation of theophylline in composite wall system consisting of whey proteins and lipids
Lee SJ, Rosenberg M |
| 323 - 334 |
A new method for encapsulation of living cells: preliminary results with PC12 cell line
Mercier P, Fernandez F, Tortosa F, Bagheri H, Duplan H, Tafani M, Bes JC, Bastide R, Lazorthes Y, Sallerin B |
| 335 - 345 |
Characterization of drug release from diltiazem-loaded polylactide microspheres prepared using sodium caseinate and whey protein as emulsifying agents
Corrigan OI, Heelan BA |
| 347 - 357 |
Influences of process parameters on preparation of microparticle used as a carrier system for Omega-3 unsaturated fatty acid ethyl esters used in supplementary nutrition
Lamprecht A, Schafer U, Lehr CM |
| 359 - 371 |
Formulation and in vitro-in vivo evaluation of piribedil solid lipid micro- and nanoparticles
Demirel M, Yazan Y, Muller RH, Kilic F, Bozan B |
| 373 - 383 |
Formulation of epichlorohydrin cross-linked starch microspheres
Hamdi G, Ponchel G, Duchene D |
| 385 - 395 |
Biological cells as templates for hollow microcapsules
Neu B, Voigt A, Mitlohner R, Leporatti S, Gao CY, Donath E, Kiesewetter H, Mohwald H, Meiselman HJ, Baumler H |
| 397 - 409 |
Encapsulation of antihypertensive drugs in cellulose-based matrix microspheres: characterization and release kinetics of microspheres and tableted microspheres
Soppimath KS, Kulkarni AR, Aminabhavi TM |
