| 471 - 478 |
Studies on paclitaxel-loaded glyceryl monostearate nanoparticles
Shenoy VS, Rajyaguru TH, Gude RP, Murthy RSR |
| 479 - 484 |
Preparation and evaluation of celecoxib-loaded microcapsules with self-microemulsifying core
Homar M, Dreu R, Kerc J, Gasperlin M |
| 485 - 492 |
Preparation and investigation the release behaviour of wax microspheres loaded with salicylic acid
Gifani A, Taghizadeh M, Seifkordi AA, Ardjmand M |
| 493 - 500 |
Oral delivery of low molecular weight heparin microspheres prepared using biodegradable polymer matrix system
Lanke SSS, Gayakwad SG, Strom JG, D'souza MJ |
| 501 - 512 |
Development of biodegradable drug releasing polymeric cardiovascular stents and in vitro evaluation
Sarisozen C, Arica B, Hincal AA, Calis S |
| 513 - 522 |
Delivery of rSLPI in a liposomal carrier for inhalation provides protection against cathepsin L degradation
Gibbons AM, McElvaney NG, Taggart CC, Cryan SA |
| 523 - 528 |
The intestinal permeation of didanosine from granules containing microspheres using the everted gut sac model
da Silva CF, Severino P, Martins F, Chaud MV, Santana MHA |
| 529 - 534 |
Encapsulation and release characteristics of DCTN/PLGA microspheres
Morais WA, Costa MP, Paixao ADO, Maciel MAM, Santos-Magalhaes NS |
| 535 - 543 |
In vitro evaluation of chondroitin sulphate-chitosan microspheres as carrier for the delivery of proteins
Maculotti K, Tira EM, Sonaggere M, Perugini P, Conti B, Modena T, Pavanetto F |
| 544 - 555 |
Novel factor-loaded polyphosphazene matrices: Potential for driving angiogenesis
Oredein-McCoy O, Krogman NR, Weikel AL, Hindenlang MD, Allcock HR, Laurencin CT |
| 556 - 561 |
Effect of microfluidization parameters on the physical properties of PEG-PLGA nanoparticles prepared using high pressure microfluidization
Sani SN, Das NG, Das SK |
