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Mitigating Punch Sticking Propensity of Celecoxib by Cocrystallization: An Integrated Computational and Experimental Approach

Chenguang Wang, Shubhajit Paul, David J. Sun, Sten O. Nilsson Lill, Changquan Calvin Sun

2020Crystal Growth & Design33 citationsDOI

Abstract

An l-proline cocrystal of celecoxib was identified based on a computational approach for predicting crystal mechanical properties in order to significantly reduce the punch sticking propensity of celecoxib. The reduced punch sticking propensity of this cocrystal was attributed to both reduced plasticity through deactivating slip planes and minimizing exposure of high electronegative functional groups to the punch tip during compression. This material-sparing and reliable approach of integrated computational and experimental investigation of punch sticking holds promise in crystal engineering of drugs for crystal forms suitable for developing tablet formulations.

Topics & Concepts

CocrystalCrystal plasticityCelecoxibCrystal (programming language)Materials scienceSlip (aerodynamics)ChemistryNanotechnologyComposite materialMoleculeComputer sciencePlasticityOrganic chemistryThermodynamicsHydrogen bondPhysicsBiochemistryProgramming languageCrystallography and molecular interactionsCrystallization and Solubility StudiesEnergetic Materials and Combustion
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