OBJECTIVETo study the preparation of cantharidin entrapped non-ionic surfactant vesicle (noisome)and evaluate its quality.

METHODThe niosome loaded with cantharidin was prepared using injection method by non-ionic surfactants as the carrier. An centrifugation separation method and HPLC analysis method of the cantharidin were established to detect the entrapment efficiency. The optimum preparation technology was established by a orthogonal experiment. The morphology, and particle size were studied to evaluate the preparation.

RESULTThe average size of niosomes were (209. 8 +/- 0.5) nm. The entrapment efficiency of the CTD-NS was (27.5% +/- 2.0%) and Zeta potential was (41.5 +/- 0.65) mV.

CONCLUSIONThe preparation of cantharidin noisome by TweenA and SpanB is practicable and successful. These experiments can be the basement of developing targeting drug delivery system.

Cantharidin ; administration & dosage ; chemistry ; isolation & purification ; Chromatography, High Pressure Liquid ; Drug Delivery Systems ; Liposomes ; administration & dosage ; chemistry ; Particle Size ; Surface-Active Agents ; administration & dosage

OBJECTIVETo prepare silymarin nanosuspension and lyophilized power for enhancing the dissilution of poorly soluble drugs.

METHODThe precipitation technique was adapted to produce the silymarin nanosuspensions respectivly applying Tween 80, SDS and Poloxamer188 as stabilizers. The lyophilized formula contained 5% mannitol as cryoprotectant. Particle size, Polydispersity index and Zeta potential were detected by Mastersizer nano ZS (Malvern England). Morphological character was observed with Transmission Electron Microscopy. The product's structure was performed with X-ray diffractometer.

RESULTThe silymarin nanosuspension was successfully prepared, in which the drug particle size was about 100-300 nm,and the particles had ball-like shape and good dispersive properties.

CONCLUSIONThis study provided potential for the neotype dosage form development of the Chinese Traditional Medicine.

Chemistry, Pharmaceutical ; methods ; Freeze Drying ; Nanoparticles ; chemistry ; Particle Size ; Silymarin ; chemistry ; Solubility ; Suspensions ; chemistry