Mechanoradical-Induced Degradation in a Pharmaceutical Blend during High-Shear Processing |
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| Authors: | Mark A. Polizzi Dharmendra Singhal Joshua Colvin |
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| Affiliation: | 1. Pfizer Global Research and Development, Eastern Point RoadGroton, Connecticut, USAmark.polizzi@pfizer.com;3. Pfizer Global Research and Development, Eastern Point RoadGroton, Connecticut, USA;4. Kao Brands Company, Cincinnati, Ohio, USA |
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| Abstract: | Mechanically generated radicals were shown to affect short-term stability of a model pharmaceutical formulation during high-shear processing. A formulation containing an oxidatively sensitive drug, either amorphous or crystalline, and a polymeric excipient was high-shear mixed and the resulting short-term degradation was determined with HPLC. High-shear mixing of the excipients was also carried out before drug addition to isolate effects on excipients versus those directly on the drug. Short-term drug stability was found to be strongly dependent on the amount of shear added to excipients prior to drug addition, regardless of morphology. A mechanism for the observed degradation based on mechanically generated radicals from microcrystalline cellulose is proposed. These results indicate that excipient high-shear exposure needs to be considered in regards to drug stability. |
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| Keywords: | mechanoradicals stability oxidation high-shear mixing API morphology |
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