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  • Effects of cooling rate in microscale and pilot scale freeze-drying - Variations in excipient polymorphs and protein secondary structure.

Effects of cooling rate in microscale and pilot scale freeze-drying - Variations in excipient polymorphs and protein secondary structure.

European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences (2016-05-26)
Björn-Hendrik Peters, Lotte Staels, Jimi Rantanen, Ferdinand Molnár, Thomas De Beer, Vesa-Pekka Lehto, Jarkko Ketolainen
ABSTRACT

Microscale freeze-drying makes rapid process cycles possible for early-stage formulation development. To investigate the effects of equipment scale and cooling rate on the solid state properties and the protein's secondary structure of a sample, three binary formulations of catalase were prepared and freeze-dried with sucrose, mannitol, or (2-hydroxypropyl)-β-cyclodextrin (HP-β-CD). The protein's secondary structure was assessed using attenuated total reflection Fourier transform infrared spectroscopy (FTIR-ATR). The solid state properties were assessed using differential scanning calorimetry (DSC) and X-ray diffraction (XRD). The results were interpreted with respect to the biological activity of catalase after its reconstitution. According to the results of both the protein secondary structure and the reconstituted biological activity, scale-up could be achieved with the sucrose-catalase formulation when it was prepared at a high cooling rate and with the mannitol-catalase formulation when prepared at a low cooling rate. However, differences in the polymorph composition of crystalline mannitol were noted. No cooling rate influence was found with the HP-β-CD formulation. The results clearly indicate that the effects of the cooling rate should be closely examined during microscale formulation development and scale-up of the freeze-drying process.

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Sigma-Aldrich
(2-idrossipropil)-β-ciclodestrina, average Mw ~1,460