Salmonella continues to be an impor

Salmonella continues to be an important cause of foodborne infections in humans throughout the world. The
precise nature of the infection depends on the specific combination of host and Salmonella serotypes, some of
them being highly pathogenic. Fourier transform infrared (FT-IR) spectroscopy together with chemometric
techniques were used in this study to discriminate closely related S. enterica serotypes. Intact cells of 26
different serotypes belonging to serogroups B, C1, C2–C3 and D1 (Enteritidis, Typhimurium, Bredeney,
Goldcoast, Rissen, Hadar, Derby, Essen, Virchow, Mbandaka, Menden, Agona, Brikama, Saintpaul, Infantis,
Braenderup, Mikawasima, Brandenburg, Heidelberg, Indiana, Norwich, Bardo, Bovismorbificans, Istanbul,
Newport and Blockley) were examined by FT-IR spectroscopy in transmittance mode and classified based on
the agglutination pattern reactions using the Kauffmann–White classification scheme. Using FT-IR spectra in
the 1200–900 cm−1 range (outer membrane polysaccharides) allowed to correctly classify all isolates
according to the four analysed serogroups. A discrimination analysis applied within each serogroup,
demonstrated that it was also possible to differentiate between the different serotypes. Results demonstrate
that application of FT-IR spectroscopy together with chemometric methods has considerable potential to
effectively fulfil the current requirements for fast and straightforward differentiation of S. enterica serotypes.