BACKGROUND: Invasive enteropathogenic bacteria can cause systemic infections. Data from studies with PCR detection suggest, at least for Salmonella enterica, that blood culture may lead to underestimation in the tropics. Corresponding data are lacking for other invasive enteropathogenic bacteria. We compared classical blood culture and molecular methods for the diagnosis of blood infections. METHODS: A real-time multiplex PCR for Salmonella spp., Shigella spp./entero- invasive Escherichia coli (EIEC), Yersinia spp., and Campylobacter jejuni was applied to 2321 retained blood culture samples from Ghanaian patients, after enrichment by automated culture. RESULTS: PCR detected Salmonella DNA in 56 out of 58 pre-incubated Ghanaian blood cultures with growth of S. enterica. In 2 samples molecular diagnosis was only possible after 1:10 dilution. Twenty-two samples negative by blood culture and 1 positive with Micrococcus spp. were PCR-positive for Salmonella spp. In addition, 3 Shigella spp./EIEC, 2 Yersinia spp., and 1 C. jejuni were detected by PCR but not by culture growth. CONCLUSIONS: Real-time PCR was more sensitive in identifying invasive enteropathogenic bacteria than automated blood culture, which is hampered by a lack of evidence-based standardization of pre-analytic conditions in the tropics. Primary agar culture and Gram-staining prior to automated blood culture is advisable in cases where transportation times are long.
BACKGROUND: Invasive enteropathogenic bacteria can cause systemic infections. Data from studies with PCR detection suggest, at least for Salmonella enterica, that blood culture may lead to underestimation in the tropics. Corresponding data are lacking for other invasive enteropathogenic bacteria. We compared classical blood culture and molecular methods for the diagnosis of blood infections. METHODS: A real-time multiplex PCR for Salmonella spp., Shigella spp./entero- invasive Escherichia coli (EIEC), Yersinia spp., and Campylobacter jejuni was applied to 2321 retained blood culture samples from Ghanaian patients, after enrichment by automated culture. RESULTS: PCR detected Salmonella DNA in 56 out of 58 pre-incubated Ghanaian blood cultures with growth of S. enterica. In 2 samples molecular diagnosis was only possible after 1:10 dilution. Twenty-two samples negative by blood culture and 1 positive with Micrococcus spp. were PCR-positive for Salmonella spp. In addition, 3 Shigella spp./EIEC, 2 Yersinia spp., and 1 C. jejuni were detected by PCR but not by culture growth. CONCLUSIONS: Real-time PCR was more sensitive in identifying invasive enteropathogenic bacteria than automated blood culture, which is hampered by a lack of evidence-based standardization of pre-analytic conditions in the tropics. Primary agar culture and Gram-staining prior to automated blood culture is advisable in cases where transportation times are long.
Authors: Hagen Frickmann; Denise Dekker; Norbert Georg Schwarz; Andreas Hahn; Kennedy Boahen; Nimako Sarpong; Yaw Adu-Sarkodie; Eva Halbgewachs; Florian Marks; Vera von Kalckreuth; Sven Poppert; Ulrike Loderstaedt; Jürgen May; Ralf Matthias Hagen Journal: PLoS One Date: 2015-08-13 Impact factor: 3.240
Authors: Winfried Maaßen; Dorothea Wiemer; Claudia Frey; Christina Kreuzberg; Egbert Tannich; Rebecca Hinz; Andreas Wille; Andreas Fritsch; Ralf Matthias Hagen; Hagen Frickmann Journal: Mil Med Res Date: 2017-04-21
Authors: Hagen Frickmann; Philipp Warnke; Claudia Frey; Salvatore Schmidt; Christian Janke; Kay Erkens; Ulrich Schotte; Thomas Köller; Winfried Maaßen; Andreas Podbielski; Alfred Binder; Rebecca Hinz; Benjamin Queyriaux; Dorothea Wiemer; Norbert Georg Schwarz; Ralf Matthias Hagen Journal: Biomed Res Int Date: 2015-10-11 Impact factor: 3.411