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Mannitol/ l -Arginine-Based Formulation Systems for Freeze Drying of Protein Pharmaceuticals: Effect of the l -Arginine Counter Ion and Formulation Composition on the Formulation Properties and the Physical State of Mannitol

2016; Elsevier BV; Volume: 105; Issue: 10 Linguagem: Inglês

10.1016/j.xphs.2016.07.001

1520-6017

Peter Stärtzel, Henning Gieseler, Margit Gieseler, Ahmad M. Abdul‐Fattah, Michael Adler, Hanns‐Christian Mahler, Pierre Goldbach,

Transgenic Plants and Applications

Abstract Previous studies have shown that protein storage stability in freeze-dried l-arginine-based systems improved in the presence of chloride ions. However, chloride ions reduced the glass transition temperature of the freeze concentrate ( T g ′) and made freeze drying more challenging. In this study, l-arginine was freeze dried with mannitol to obtain partially crystalline solids that can be freeze dried in a fast process and result in elegant cakes. We characterized the effect of different l-arginine counter ions on physicochemical properties of mannitol compared with mannitol/sucrose systems. Thermal properties of formulations with different compositions were correlated to thermal history during freeze drying and to physicochemical properties (cake appearance, residual moisture, reconstitution time, crystallinity). Partially crystalline solids were obtained even at the highest l-arginine level (mannitol:l-arginine of 2:1) used in this study. All l-arginine-containing formulations yielded elegant cakes. Only cakes containing l-arginine chloride and succinate showed a surface "crust" formed by phase separation. X-ray powder diffraction showed that inhibition of mannitol crystallization was stronger for l-arginine compared with sucrose and varied with the type of l-arginine counter ion. The counter ion affected mannitol polymorphism and higher levels of mannitol hemi-hydrate were obtained at high levels of l-arginine chloride.