1 |
In situ-forming PLGA implants loaded with leuprolide acetate/-cyclodextrin complexes: mathematical modelling and degradation Rahimi M, Mobedi H, Behnamghader A Journal of Microencapsulation, 33(4), 355, 2016 |
2 |
Solvent evaporation processes for the production of controlled release biodegradable microsphere formulations for therapeutics and vaccines Cleland JL Biotechnology Progress, 14(1), 102, 1998 |
3 |
Development and scale-up of a microsphere protein delivery system Tracy MA Biotechnology Progress, 14(1), 108, 1998 |
4 |
New strategies for the microencapsulation of tetanus vaccine Schwendeman SP, Tobio M, Joworowicz M, Alonso MJ, Langer R Journal of Microencapsulation, 15(3), 299, 1998 |
5 |
Protein delivery from poly(lactic-co-glycolic acid) biodegradable microspheres: release kinetics and stability issues Crotts G, Park TG Journal of Microencapsulation, 15(6), 699, 1998 |
6 |
Large Porous Particles for Pulmonary Drug-Delivery Edwards DA, Hanes J, Caponetti G, Hrkach J, Benjebria A, Eskew ML, Mintzes J, Deaver D, Lotan N, Langer R Science, 276(5320), 1868, 1997 |
7 |
Preparation and characterization of polylactic acid microspheres containing water-soluble dyes using a novel w/o/w emulsion solvent evaporation method Uchida T, Yoshida K, Goto S Journal of Microencapsulation, 13(2), 219, 1996 |
8 |
Polylactide Microparticles Prepared by Double Emulsion-Evaporation .2. Effect of the Poly(Lactide-Co-Glycolide) Composition on the Stability of the Primary and Secondary Emulsions Nihant N, Schugens C, Grandfils C, Jerome R, Teyssie P Journal of Colloid and Interface Science, 173(1), 55, 1995 |
9 |
BIODEGRADABLE MICROCAPSULES PREPARED BY A W/O/W TECHNIQUE -EFFECTS OF SHEAR FORCE TO MAKE A PRIMARY W/O EMULSION ON THEIR MORPHOLOGY AND PROTEIN RELEASE SAH HK, TODDYWALA R, CHIEN YW Journal of Microencapsulation, 12(1), 59, 1995 |