Overview
ABSTRACT
Drug formulation processes using supercritical fluids can yield products with controlled, homogeneous characteristics. The use of organic solvents is reduced, or in many cases completely avoided. Entities of ranging types (e.g. common active ingredients, biomolecules, or polymers) can be treated. Several of these processes have reached maturity, and are being developed in the pharmaceutical industry.
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Elisabeth BADENS: Professor at Aix Marseille University and researcher in the Processes and Supercritical Fluids Group at the Laboratory of Mechanics and Green Processes (M2P2) – UMR CNRS 7340 Aix Marseille Univ, CNRS, Centrale Marseille, M2P2, Marseille, France
INTRODUCTION
Supercritical fluids are now used in a large number of processes and in a wide variety of industrial sectors, including chemicals, agrifood, cosmetics, nutraceuticals, pharmaceuticals, health, textiles, plastics, building materials, automobiles and mechanical engineering, and more latterly in the energy sector and waste industry. In most applications, supercritical fluids are used as solvents, but they can also be used as reagents, particularly super-critical water. Besides “reactive” processes, supercritical fluids are mainly used for extraction, fractionation, purification, cleaning, materials processing, particle generation, encapsulation and impregnation. A recent emerging application of supercritical fluids makes use of the biocidal properties of supercritical carbon dioxide, which allows efficient microbial inactivation or bioburden lowering. Finally, one application of supercritical fluids in the field of separation is in analytical and preparative supercritical fluid chromatography.
This article focuses on the use of supercritical fluids for drug product development, and outlines the different processes for processing drugs, either pure or together with excipients, to produce sustained-release drug delivery systems. Drug purification processes are not addressed here. Our purpose is to provide all the information needed to select the most appropriate process according to the characteristics of the raw drug and of the final product targeted.
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Supercritical fluid technology in pharmaceuticals
Bibliographic references
Patents
BOUTIN (O.). – Apparatus for forming particles of a target substance . US Patent 11/846,664 (2007).
CALDERONE (M.), RODIER (E.) et FORMULCOAT. – Procédé d’enrobage de poudres . Pub. FR 10.03.2006, WO2006/030112 (2006).
CASTOR (T.P.). – Methods and apparatus for making liposomes...
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