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Computational predictions of cocrystal formation: A benchmark study of 28 assemblies comparing five methods from high-throughput to advanced models

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journal contribution
posted on 2024-07-11, 08:05 authored by Robert Fox, Joaquin Klug, Damien ThompsonDamien Thompson, Anthony Reilly

Cocrystals are assemblies of more than one type of molecule stabilized through non-covalent interactions. They are promising materials for improved drug formulation in which the stability, solubility, or biocompatibility of the active pharmaceutical ingredient (API) is improved by including a coformer. In this work, a range of density functional theory (DFT) and density functional tight binding (DFTB) models are systematically compared for their ability to predict the lattice enthalpy of a broad range of existing pharmaceutically relevant cocrystals. These range from cocrystals containing model compounds 4,40 -bipyridine and oxalic acid to those with the well benchmarked APIs of aspirin and paracetamol, all tested with a large set of alternative coformers. For simple cocrystals, there is a general consensus in lattice enthalpy calculated by the different DFT models. For the cocrystals with API coformers the cocrystals, enthalpy predictions depend strongly on the DFT model. The significantly lighter DFTB models predict unrealistic values of lattice enthalpy even for simple cocrystals.

Funding

SSPC_Phase 2

Science Foundation Ireland

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Publication

Journal of Computational Chemistry

Publisher

Wiley Periodicals LLC

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  • Bernal Institute

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  • Physics

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