Control over Particle Size Distribution by Autoclaving Poloxamer-Stabilized Trimyristin Nanodispersions

Control over Particle Size Distribution by Autoclaving Poloxamer-Stabilized Trimyristin Nanodispersions

Lipid nanoparticles are under investigation as delivery systems for poorly water-soluble drugs. The particle size in these dispersions strongly influences important pharmaceutical properties like biodistribution and drug loading capacity; it should be below 500 nm for direct injection into the blood...

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Bibliographic Details
Published in:Molecular pharmaceutics Vol. 13; no. 9; pp. 3187 - 3195
Main Authors: Göke, Katrin, Roese, Elin, Arnold, Andreas, Kuntsche, Judith, Bunjes, Heike
Format: Journal Article
Language:English
Published: United States American Chemical Society 06-09-2016
Subjects:
Drug Carriers - chemistry
Drug Stability
Dynamic Light Scattering
Emulsifying Agents - chemistry
Magnetic Resonance Spectroscopy
Microscopy, Electron, Transmission
Nanoparticles - chemistry
Particle Size
Poloxamer - chemistry
Triglycerides - chemistry
lipid nanoparticles
photon correlation spectroscopy
asymmetrical flow field-flow fractionation (A4F)
differential scanning calorimetry
autoclaving
laser diffraction
particle size distribution
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Summary:Lipid nanoparticles are under investigation as delivery systems for poorly water-soluble drugs. The particle size in these dispersions strongly influences important pharmaceutical properties like biodistribution and drug loading capacity; it should be below 500 nm for direct injection into the bloodstream. Consequently, small particles with a narrow particle size distribution are desired. Hitherto, there are, however, only limited possibilities for the preparation of monodisperse, pharmaceutically relevant dispersions. In this work, the effect of autoclaving at 121 °C on the particle size distribution of lipid nanoemulsions and -suspensions consisting of the pharmaceutically relevant components trimyristin and poloxamer 188 was studied. Additionally, the amount of emulsifier needed to stabilize both untreated and autoclaved particles was assessed. In our study, four dispersions of mean particle sizes from 45 to 150 nm were prepared by high-pressure melt homogenization. The particle size distribution before and after autoclaving was characterized using static and dynamic light scattering, differential scanning calorimetry, and transmission electron microscopy. Asymmetrical flow field–flow fractionation was used for particle size distribution analyses and for the determination of free poloxamer 188. Upon autoclaving, the mean particle size increased to up to 200 nm, but not proportionally to the initial size. At the same time, the particle size distribution width decreased remarkably. Heat treatment thus seems to be a promising approach to achieve the desired narrow particle size distribution of such dispersions. Related to the lipid content, suspension particles needed more emulsifier for stabilization than emulsion droplets, and smaller particles more than larger ones.
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ISSN:1543-8384
1543-8392
DOI:10.1021/acs.molpharmaceut.6b00395