A pilot study of freeze drying of poly(epsilon-caprolactone) nanocapsules stabilized by poly(vinyl alcohol): Formulation and process optimization

A pilot study of freeze drying of poly(epsilon-caprolactone) nanocapsules stabilized by poly(vinyl alcohol): Formulation and process optimization

A common limitation of using polymeric nanoparticles in aqueous suspension is due to their poor chemical and physical stability when conserved for a long time. Therefore, freeze drying of these colloidal systems is an alternative method to achieve long-term stability. Nanocapsules have thin and frag...

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Bibliographic Details
Published in:International journal of pharmaceutics Vol. 309; no. 1; pp. 178 - 188
Main Authors: Abdelwahed, Wassim, Degobert, Ghania, Fessi, Hatem
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 17-02-2006
Elsevier
Subjects:
Annealing
Biological and medical sciences
Capsules
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Cryoprotective Agents - chemistry
Emulsification–diffusion technique
Environmental scanning electron microscope
Excipients - chemistry
Freeze Drying
General pharmacology
Life Sciences
Medical sciences
Models, Chemical
Nanocapsules
Nanotechnology
Pharmaceutical sciences
Pharmaceutical technology. Pharmaceutical industry
Pharmacology. Drug treatments
Pilot Projects
Polyesters - chemistry
Polyvinyl Alcohol - chemistry
Sucrose - chemistry
Surface Properties
Technology, Pharmaceutical - methods
Temperature
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Freeze drying
Annealing
Emulsification–diffusion technique
Environmental scanning electron microscope
Nanocapsules
Nanocapsule
Pharmaceutical technology
Emulsification
Process
Optimization
Polyvinylalcohol
Emulsification-diffusion technique
Formulation
Diffusion
Polycaprolactone
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Description
Summary:A common limitation of using polymeric nanoparticles in aqueous suspension is due to their poor chemical and physical stability when conserved for a long time. Therefore, freeze drying of these colloidal systems is an alternative method to achieve long-term stability. Nanocapsules have thin and fragile shell structure, which may not resist to the stress of such process. The aim of this study is to investigate the formulation and process parameters in order to ensure the stability of polycaprolactone nanocapsules (PCL NC) by freeze drying. In this paper, we studied the freeze drying of PCL NC prepared by the emulsion–diffusion method and stabilized by poly(vinyl alcohol) (PVA). Different parameters have been tested throughout the freeze–thawing study including PVA and PCL concentration, cooling rate, cryoprotectant concentrations, nature of encapsulated oil and NC purification. On the other hand, nanocapsules have been freeze dried both before and after purification. Freeze dried purified PCL NC were characterized by particle size measurement, collapse temperature, T ′ g determination, scanning electron microscope observation, environmental scanning electron microscope imaging and residual humidity quantification. Finally, the effect of annealing on the NC stability and the sublimation rate has been well explored. The results suggest that PCL NC could be freeze dried without a cryoprotectant if the concentration of PVA stabilizer is sufficient (5%), while for the purified NC the addition of 5% of cryoprotectant seems to be necessary to ensure the stability of NC. The type of cryoprotectants had practically negligible effects on the size and the rehydration of freeze dried nanocapsules. The annealing process could accelerate the sublimation with the conservation of nanocapsules size.
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ISSN:0378-5173
1873-3476
DOI:10.1016/j.ijpharm.2005.10.003