Nanosuspensions for the formulation of poorly soluble drugs: I. Preparation by a size-reduction technique

Abstract A basic problem of poorly soluble drugs is often an insufficient bioavailability. To allow the i.v. injection of these drugs, they were formulated as nanosuspensions by high pressure homogenization. The effect of the production parameters pressure and cycle number on the mean particle size and on the polydispersity of the nanosuspension was investigated with special attention to contamination by microparticles — the limiting factor for i.v. injection. Properties of the nanosuspensions are increased saturation solubility C s and dissolution rate d c /d t . These phenomena are explained using the Prandtl and the Ostwald–Freundlich equations. These properties promote the dissolution of the nanosuspensions in the blood after i.v. injection. The size distribution obtained and the use of an APV Gaulin homogenizer (FDA approved for parenterals) lead to a pharmaceutical product considered acceptable by the regulatory authorities.

[1]  Mitra Mosharraf,et al.  The effect of particle size and shape on the surface specific dissolution rate of microsized practically insoluble drugs , 1995 .

[2]  C. Nyström,et al.  Physicochemical aspects of drug release. VIII. The relation between particle size and surface specific dissolution rate in agitated suspensions , 1988 .

[3]  P. Ney Zeta-Potentiale und Flotierbarkeit von Mineralen , 1973 .

[4]  R. Müller,et al.  Solid lipid nanoparticles (SLN) for controlled drug delivery. I. Production, characterization and sterilization , 1994 .

[5]  Alexander T. Florence,et al.  Physicochemical Principles of Pharmacy , 1988 .

[6]  J D Slack,et al.  Acute hemodynamic effects and blood pool kinetics of polystyrene microspheres following intravenous administration. , 1981, Journal of pharmaceutical sciences.

[7]  D. McCarthy,et al.  Further histological evidence of the gastrointestinal absorption of polystyrene nanospheres in the rat , 1992 .

[8]  B. Bivins,et al.  Physiological effects of subvisible microspheres administered intravenously to beagle dogs. , 1978, Journal of pharmaceutical sciences.

[9]  A. Florence,et al.  The effect of adsorbed poloxamer 188 and 407 surfactants on the intestinal uptake of 60-nm polystyrene particles after oral administration in the rat , 1996 .

[10]  R. A. Taube,et al.  Pulmonary Perfusion Imaging: Acute Toxicity and Safety Factors as a Function of Particle Size , 1978 .

[11]  R. Müller Colloidal Carriers for Controlled Drug Delivery and Targeting: Modification, Characterization, and In Vivo Distribution , 1991 .

[12]  C. Nyström,et al.  Physicochemical aspects of drug release. VII. The effect of surfactant concentration and drug particle size on solubility and dissolution rate of felodipine, a sparingly soluble drug , 1988 .