SolEmuls ®—novel technology for the formulation of i.v. emulsions with poorly soluble drugs

Intravenously injectable o/w emulsions of drugs being poorly soluble in water and simultaneously in oils need to be produced by locating the drug in the interfacial lecithin layer, e.g. amphotericin B. For achieving this, up to now organic solvents were required. The objective was to develop a solve...

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Bibliographic Details
Published in:International journal of pharmaceutics 2004-01, Vol.269 (2), p.293-302
Main Authors: Müller, R.H, Schmidt, S, Buttle, I, Akkar, A, Schmitt, J, Brömer, S
Format: Article
Language:English
Subjects:
Amphotericin B
Amphotericin B - administration & dosage
Antifungal Agents - administration & dosage
Biological and medical sciences
Carbamazepine
Chemistry, Pharmaceutical - methods
Drug Combinations
Drug Storage
Emulsion
Emulsions
General pharmacology
High pressure homogenisation
Medical sciences
Particle Size
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Phospholipids
SolEmuls
Solubility
Sorbitol
Technology, Pharmaceutical - methods
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Summary:Intravenously injectable o/w emulsions of drugs being poorly soluble in water and simultaneously in oils need to be produced by locating the drug in the interfacial lecithin layer, e.g. amphotericin B. For achieving this, up to now organic solvents were required. The objective was to develop a solvent-free production method for such emulsions. Drug and the pre-formed parenteral emulsion Lipofundin ® were mixed and subjected to high pressure homogenisation. Drug powder and emulsions were characterised regarding size and physical stability by photon correlation spectroscopy (PCS), laser diffractometry (LD) and zeta potential measurements. Drug incorporation was studied using light microscopy, electron microscopy (EM) and a centrifugation test to separate non-dissolved drug. Amphotericin B and carbamazepine were used as model drugs. The high streaming velocities lead to accelerated drug dissolution and partitioning into the interfacial layer (so-called “solubilisation by emulsification”, SolEmuls ® Technology). The interfacial layer could incorporate (solubilise) a certain amount of drug, revealed by EM pictures. Exceeding this concentration, hybrid dispersions were formed consisting of drug-loaded oil droplets and drug nanocrystals of similar size (approximately 200 nm). Both dispersion types are i.v. injectable opening the opportunity to deliver the drug in a concentrated form at desired low injection volume, e.g. 10 mg/ml.
ISSN:0378-5173
1873-3476
DOI:10.1016/j.ijpharm.2003.09.019