Inaas Darrat scite author profile

Precipitation with a compressed or supercritical fluid antisolvent (PCA) has been used to produce microparticles of biologically active proteins, pharmaceuticals, and polymers. However, the application of PCA to a wider range of proteins is limited by the low mutual solubility of water (necessary to dissolve most proteins) and CO(2) (traditionally used as the compressed antisolvent). This investigation extends PCA to proteins in aqueous solutions by utilizing ethanol as a cosolvent to enhance the antisolvent properties of CO(2) toward aqueous systems. alpha-Chymotrypsin, a model protein, was precipitated from both compressed CO(2) and a liquid fluorinated antisolvent, a hydrofluoroether (HFE). The equilibrium phase behavior of the antisolvent/ethanol/water systems was examined to identify a one-phase region suitable for protein precipitation. Spherical protein microparticles with a primary particle size of approximately 0.2-0.6 microm were recovered using both the compressed CO(2) and fluorinated antisolvents. Although the proteins retained significant activity using both antisolvent systems, the HFE-precipitated chymotrypsin retained higher activity than the CO(2)-precipitated protein.

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Inaas Darrat

Generation of microparticles using CO₂ and CO₂‐philic antisolvents

CO₂ and Fluorinated Solvent‐Based Technologies for Protein Microparticle Precipitation from Aqueous Solutions

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Inaas Darrat

Generation of microparticles using CO2 and CO2‐philic antisolvents

CO2 and Fluorinated Solvent‐Based Technologies for Protein Microparticle Precipitation from Aqueous Solutions

Contact Info

Product

Resources

About

Generation of microparticles using CO₂ and CO₂‐philic antisolvents

CO₂ and Fluorinated Solvent‐Based Technologies for Protein Microparticle Precipitation from Aqueous Solutions