Application of a thermodynamic model to the prediction of phase separations in freeze-concentrated formulations for protein lyophilization
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Albumins - Serum Albumin
Biomedical and Dental Materials - Polyethylene Glycols
Blood Proteins - Hemoglobins
Blood Proteins - Serum Albumin
Chemistry Techniques, Analytical - Refractometry
Chemistry Techniques, Analytical - Scattering, Radiation
Diagnostic Imaging - Microscopy, Electron, Scanning
Diagnostic Techniques and Procedures - Freeze Drying
Diagnostic Techniques and Procedures - Freeze Drying
Drug Compounding
Ecological and Environmental Phenomena - Temperature
Ecological and Environmental Phenomena - Temperature
Electromagnetic Phenomena - Light
Environment and Public Health - Temperature
Environment, Controlled - Temperature
Ethylene Glycols - Polyethylene Glycols
Globins - Hemoglobins
Investigative Techniques - Freeze Drying
Investigative Techniques - Freeze Drying
Investigative Techniques - Freeze Drying
Investigative Techniques - Microscopy, Electron, Scanning
Macromolecular Substances - Dextrans
Macromolecular Substances - Polyethylene Glycols
Manufactured Materials - Polyethylene Glycols
Models, Chemical
Optical Phenomena - Light
Photometry - Spectrophotometry, Infrared
Physical Phenomena - Scattering, Radiation
Physics - Refractometry
Polysaccharides - Dextrans
Protein Structure, Secondary
Proteins
Radiation - Light
Radiation, Nonionizing - Light
Spectrum Analysis - Spectrophotometry, Infrared
Therapeutics - Freeze Drying
Thermodynamics
Thermodynamics - Temperature
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Date in CU Experts
September 3, 2013 2:48 AM
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Heller MC; Carpenter JF; Randolph TW
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