Multinuclear solid state NMR investigation of two polymorphic forms of Ciprofloxacin-saccharinate.

GARRO LINCK YAMILA ; CHATTAH ANA KARINA; GRAF ROBERT; ROMAÑUK CAROLINA BEATRIZ; OLIVERA MARÍA EUGENIA; MANZO RUBEN HILARIO; MONTI CUSTAVO; SPIESS HANS

PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Royal Society of Chemistry

Lugar: Cambridge; Año: 2011 vol. 13 p. 6590 - 6596

1463-9076

Two polymorphic forms of a novel pharmaceutical compound, ciprofloxacin-saccharinate (CIP-SAC), are analyzed using one dimensional (1D) and two dimensional (2D) 1H nuclear magnetic resonance (NMR) at fast magic angle spinning (MAS). Additionally 15N spectroscopy and 1H 13C correlation experiments were performed to complement our conclusions. The 1D 1H NMR spectra of CIP and complexes reveal valuable information about the ionic bonding between ciprofloxacin and saccharine. Additionally, these spectra allow us to perform a clear characterization of each solid form, giving the number of molecules per unit cell in one of the polymorphs. From 2D 1H?1H spectra obtained through double quantum correlations we can arrive at important conclusions about the hydrogen bonding, conformation, and intra and inter-molecular interactions present in these compounds. Comparing and contrasting the 1H?1H correlation data obtained for both polymorphic forms and taking into account the single crystal structure data existing for the solid form CIP-SAC (II) was possible to extract some conclusions on the polymorph CIP-SAC (I) where no single crystal information is available. 1H MAS NMR is shown to be an important tool in the field of polymorphism and for the characterization of multicomponent pharmaceutical compounds.