Issue 34, 2023

Role of mechanochemical synthesis in the crystal chemistry of leflunomide

Abstract

Mechanochemical synthesis for the formulation of new multicomponent forms of an API involving salts and solvates is considered to be of extreme significance in the field of molecular pharmaceutics. Keeping this in mind, an approach towards the synthesis of a solvate and a salt of the active pharmaceutical ingredient leflunomide (LF) has been developed. The formulation of the salt that emerged via the in situ transformation of the parent prodrug LF to its active metabolite teriflunomide (TF), using solvent-assisted mechanochemical grinding, is reported here. The pharmaceutically accepted additives were selected for the synthesis of new crystalline forms based on the well-established principles of crystal engineering. Here, the formation of two multi-component forms, namely LF_DMSO solvate and TF_PPZ+ salt with piperazine (PPZ), has been described. These novel multi-component forms so obtained were crystallized and characterized via single-crystal, powder X-ray diffraction and thermal (DSC and HSM) methods. The presence of charge assisted N+–H⋯O hydrogen bonding interactions along with supporting C–H⋯O/N/F, N–H⋯N, etc. interactions in these forms is well explored in terms of the energetics of the crystal packing. Furthermore, the quantitative interplay of electrostatic, polarization, dispersive, and repulsive contributions towards the interaction energies along with lattice energies for both solvate and salt was carried out using PIXEL, MiCMoS packages and CrystalExplorer.

Graphical abstract: Role of mechanochemical synthesis in the crystal chemistry of leflunomide

Supplementary files

Article information

Article type
Communication
Submitted
16 अप्रैल 2023
Accepted
17 जुलाई 2023
First published
17 जुलाई 2023

CrystEngComm, 2023,25, 4779-4792

Role of mechanochemical synthesis in the crystal chemistry of leflunomide

V. A. Lohar, A. M. Menon, A. Suresh and D. Chopra, CrystEngComm, 2023, 25, 4779 DOI: 10.1039/D3CE00373F

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