| Literature DB >> 32017954 |
Elisabeth Ullrich1, Petra Heidinger2, Jung Soh3, Laura Villanova4, Stefan Grabuschnig4, Thorsten Bachler2, Elisabeth Hirschböck5, Sara Sánchez-Heredero4, Barry Ford6, Maria Sensen7, Ingund Rosales Rodriguez5, Daniel Schwendenwein2, Peter Neumeister8, Christoph J Zurl9, Robert Krause10, Johannes Lorenz Khol11, Christoph W Sensen12.
Abstract
We have identified 24 molecular markers, based on circulating nucleic acids (CNA) originating from the human genome, which in combination can be used in a quantitative real-time PCR (qPCR) assay to identify the presence of human sepsis, starting two to three days before the first clinical signs develop and including patients who meet the SEPSIS-3 criteria. The accuracy was more than 87 % inside of the same patient cohort for which the markers were developed and up to 81 % in blind studies of patient cohorts which were not included in the marker development. As our markers are host-based, they can be used to capture bacterial as well as fungal sepsis, unlike the current PCR-based tests, which require species-specific primer sets for each organism causing human sepsis. Our assay directly uses an aliquot of cell-free blood as the substrate for the PCR reaction, thus allowing to obtain the diagnostic results in three to four hours after the collection of the blood samples.Entities:
Keywords: Circulating nucleic acids; Host-based markers; Human sepsis diagnostics
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Year: 2020 PMID: 32017954 DOI: 10.1016/j.jbiotec.2020.01.013
Source DB: PubMed Journal: J Biotechnol ISSN: 0168-1656 Impact factor: 3.307