Field Detection and Identification of a Bioaerosol Suite by Pyrolysis-Gas Chromatography-Ion Mobility Spectrometry

Abstract

Improvements were made to a pyrolysis-gas chromatography-ion mobility spectrometry (Py-GC-IMS) stand-alone biodetector to provide more pyrolyzate compound information to the IMS detector module. Biological aerosols were disseminated at DRES, Alberta, Canada and the Py-GC-IMS was tested for its ability to detect the biological aerosols. Forty-two trials were conducted and a simple area calculation of the GC-IMS data domain biomarker peaks correlated with the correct bioaerosol challenge in 30 trials (71%). In another 7 trials, the status of an aerosol was determined to be biological in origin. Two additional trials had no discernible, unambiguous GC-IMS biological response, because they were blank water sprays. Reproducible limits of detection were at a concentration of less than 0.5 bacterial analyte-containing particles per liter of air (ACPLA). In order to realize this low concentration, an aerosol concentrator was used to concentrate 2000 liters of air in 2.2 minutes. The current series of outdoor trials has provided a platform to show that the Py-GC-IMS can provide information more specific than a biological or nonbiological analysis to an aerosol when the time of dissemination is unknown to the operator. The Py-GCIMS is shown to be able to discriminate between aerosols of a Gram-positive spore (BG), a Gram-negative bacterium (EH) and a protein (ovalbumin).

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 2003

Accession Number

ADA484082

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