Optimization of Freeze-Drying Cycle for Tert-Butanol–Based Formulations of Ibuprofen

Optimization of Freeze-Drying Cycle for Tert-Butanol–Based Formulations of Ibuprofen

We carried out the formulation set-up and thermodynamics as well as morphological characterization of two systems: an aqueous-based formulation and an organic-solvent-based formulation with tert-butanol (TBA) at eutectic composition (20% TBA + water 80% by mass) containing ibuprofen as the model pha...

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Bibliographic Details
Published in:Drying technology Vol. 31; no. 3; pp. 308 - 313
Main Authors: Bogdani, Eni, Vessot, Séverine, Do, Gabsoo, Andrieu, Julien, Degobert, Ghania
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis Group 17-02-2013
Taylor & Francis Ltd
Taylor & Francis
Subjects:
Aqueous chemistry
Chemical and Process Engineering
Comparative analysis
Crystals
Drugs
Engineering Sciences
enthalpy
Formulation
Freeze-drying
Freezing
glass transition temperature
Ibuprofen
ice
Life Sciences
Mathematical models
Morphology
Optimization
Organic-based formulations
permeability
Pharmaceutical sciences
Solvents
Sublimation
supercooling
Tert-butanol
Thermodynamics
vapor pressure
ACL
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Summary:We carried out the formulation set-up and thermodynamics as well as morphological characterization of two systems: an aqueous-based formulation and an organic-solvent-based formulation with tert-butanol (TBA) at eutectic composition (20% TBA + water 80% by mass) containing ibuprofen as the model pharmaceutical active component. The goal was to carry out the optimization of a soft freeze-drying cycle for heat-sensitive drugs. The organic-based ibuprofen formulation had a glass transition temperature significantly higher compared to that of the aqueous-based ibuprofen formulation, which allowed much higher sublimation temperatures for these systems in comparison with the pure water-based ibuprofen formulations. The morphological study of the frozen organic-based formulation showed unexpected behavior in comparison with previous literature data reported for water-based formulations. For the same freezing rates, the mean diameters of the solvent crystals of organic-based formulations were much larger than that of ice crystals of aqueous-based formulation, which led to a freeze-dried matrix of higher permeability. In contrast to what was observed with the aqueous-based formulations, the freezing rates, in the range of classical industrial values investigated, had no significant effect on the supercooling of the liquid ibuprofen formulations tested as well as on the nucleation temperatures and on the morphology of the organic solvent crystals. All these singular characteristics, with lower sublimation enthalpies and higher equilibrium vapor pressure values previously measured with the same formulations in our laboratory, explain the large reduction of sublimation times observed during the soft freeze-drying processes for heat-sensitive drugs with organic (TBA)-based formulations.
Bibliography:http://dx.doi.org/10.1080/07373937.2012.733789
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ISSN:1532-2300
0737-3937
1532-2300
DOI:10.1080/07373937.2012.733789