Abstract:
Introduction. The researchers conducted on interactions between different drug substances
combined in the same dosage form are fundamental to avoid the instability of the finished
medicinal product. IR spectroscopy is one of the oldest physical methods, being one of the most
suitable for obtaining absorption spectra, which are then applied to determine the compatibility
by using electromagnetic radiation to interact with the substances and to investigate, therefore,
certain characteristics of the sample depending on the wavelength.
Aim of the study. The bibliographic evaluation of IR techniques applied for the Exploring of
compatibility of drug substances with excipients.
Materials and methods. 68 abstracts and articles from systematic research in the Cochrane
Electronic Library, MEDLINE databases.
Results. Based on the absorption of infrared radiation by substances, IR spectroscopy provides
sufficient information about the possible interactions between the active substances and
excipients of a multicomponent dosage form. In all bibliographic sources, the Fourier
Transformation Infrared Spectroscopy (FTIR) method is associated and complementary with
other techniques for compatibility determination such as Differential Scanning Calorimetry
(DSC), X-ray diffraction. The study of possible interactions between drug substances and
excipients by using FTIR is performed by the KBr pellet method, where the IR spectra are first
recorded individually, then in binary mixtures in the scanning range from 4000 to 500 cm-1. The
obtained spectra are indicative for the nature of chemical bonds in the sample test and for the
mixtures of substances, that can be used to identify the chemical structures or composition of the
investigated sample. Overlapping peaks of substances and excipients in mixtures are analyzed
and compared to peaks of individual spectra.
Conclusions. It has been found that IR spectroscopy is a common, important and mandatory
technique in assessing the compatibility of drug substances with excipients.