Molecular basis of crystal morphology-dependent adhesion behavior of mefenamic acid during tableting.

Purpose: The molecular basis of crystal surface adhesion leading to sticking was investigated by exploring the correlation of crystal adhesion to oxidized iron coated atomic force microscope (AFM) tips and bulk powder sticking behavior during tableting of two morphologically different crystals of a model drug, mefenamic acid (MA), to differences in their surface functional group orientation and energy.

Methods: MA was recrystallized into two morphologies (plates and needles) of the same crystalline form. Crystal adhesion to oxidized iron coated AFM tips and bulk powder sticking to tablet punches was assessed using a direct compression formulation.

Investigation of freeze/thaw-related quality attributes of a liquid biopharmaceutical formulation: the role of saccharide excipients.

Unlabelled: Saccharides, including sucrose, trehalose, mannitol, and sorbitol, are commonly employed as stabilizers, cryoprotectants, and/or tonicity adjusters in protein formulations. During the thawing of a protein-containing formulated bulk drug substance conducted prior to a drug product (DP) filling operation, a white, crystalline precipitate was observed. In addition, upon thawing, vial breakage was observed for filled DP that had been previously frozen at -40 °C.