| 497 - 508 |
Modulation of protein release from chitosan-alginate microcapsules using the pH-sensitive polymer hydroxypropyl methylcellulose acetate succinate
Okhamafe AO, Amsden B, Chu W, Goosen MFA |
| 509 - 518 |
Microencapsulation of ovalbumin in poly(lactide-co-glycolide) by an oil-in-oil (o/o) solvent evaporation method
Uchida T, Yagi A, Oda Y, Goto S |
| 519 - 525 |
Microencapsulation of an iron chelator for sustained release and crystal habit modification
Venkataram S, Khohlokwane M |
| 527 - 535 |
Microencapsulation of allopurinol by solvent evaporation and controlled release investigation of drugs
Arabi H, Hashemi SA, Fooladi M |
| 537 - 544 |
In-vivo studies in the treatment of oral ulcers with liposomal dexamethasone sodium phosphate
Farshi FS, Ozer AY, Ercan MT, Hincal AA |
| 545 - 557 |
Effect of formulation and processing factors on the characteristics of biodegradable microcapsules of zidovudine
Mandal TK, Shekleton M, Onyebueke E, Washington L, Penson T |
| 559 - 573 |
Interfacial/free radical polymerization microencapsulation: Kinetics of particle formation
Mahabadi HK, Ng TH, Tan HS |
| 575 - 588 |
The Microsponge(R) Delivery System (MDS): A topical delivery system with reduced irritancy incorporating multiple triggering mechanisms for the release of actives
Embil K, Nacht S |
| 589 - 600 |
Effect of vehicle on topical liposomal drug delivery: Petrolatum bases
Foldvari M |
| 601 - 614 |
Effect of gelation conditions and dissolution media on the release of paracetamol from alginate gel beads
Aslani P, Kennedy RA |
