{"title":"独立热解-气相色谱-离子迁移谱法现场检测芽孢杆菌孢子气溶胶","authors":"A. Snyder, W. Maswadeh, J. Parsons, A. Tripathi, H. Meuzelaar, J. Dworzanski, Man-Goo Kim","doi":"10.1002/(SICI)1520-6521(1999)3:4/5<315::AID-FACT10>3.0.CO;2-2","DOIUrl":null,"url":null,"abstract":"A commercially available, hand-held chemical vapor detector was modified to detect gram-positive Bacillus subtilis var. globigii spores (BG) in outdoor field scenarios. An airborne vapor monitor (AVM) ion mobility spectrometry (IMS) vapor detector was interfaced to a biological sample processing and transfer introduction system. The biological sample processing was accomplished by quartz tube pyrolysis (Py), and the resultant vapor was transferred by gas chromatography (GC) to the IMS detector. The Py-GC/IMS system can be described as a hyphenated device where two analytical dimensions, in series, allow the separation and isolation of individual components from the pyrolytic decomposition of biological analytes. Gram-positive spores such as BG contain 5–15% by weight of dipicolinic acid (DPA), and picolinic acid is a pyrolysis product of DPA. Picolinic acid has a high proton affinity, and it is detected in a sensitive fashion by the atmospheric pressure-based IMS device. Picolinic acid occupies a unique region in the GC/IMS data domain with respect to other bacterial pyrolysis products. A 1000 to 1, air-to-air aerosol concentrator was interfaced to the Py-GC/IMS instrument, and the system was placed in an open-air, western United States desert environment. The system was tested with BG spore aerosol releases, and the instrument was remotely operated during a trial. A Met-One aerosol particle counter was placed next to the Py-GC/IMS so as to obtain a real-time record of the ambient and bacterial aerosol challenges. The presence/absence of an aerosol event, determined by an aerosol particle counter and a slit-sampler–agar-plate system, was compared to the presence/absence of a picolinic acid response in a GC/IMS data window at selected times in a trial with respect to a BG challenge. In the 21 BG trials, the Py-GC/IMS instrument experienced two true negatives and no false positives, and developed a software failure in one trial. The remaining 18 trials were true positive determinations for the presence of BG aerosol, and a limit of detection for the Py-GC/IMS instrument was estimated at approximately 3300 BG spore-containing particles. © John Wiley & Sons, Inc. Field Analyt Chem Technol 3: 315–326, 1999","PeriodicalId":12132,"journal":{"name":"Field Analytical Chemistry and Technology","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"1999-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"40","resultStr":"{\"title\":\"Field detection of bacillus spore aerosols with stand‐alone pyrolysis–gas chromatography–ion mobility spectrometry\",\"authors\":\"A. Snyder, W. Maswadeh, J. Parsons, A. Tripathi, H. Meuzelaar, J. Dworzanski, Man-Goo Kim\",\"doi\":\"10.1002/(SICI)1520-6521(1999)3:4/5<315::AID-FACT10>3.0.CO;2-2\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"A commercially available, hand-held chemical vapor detector was modified to detect gram-positive Bacillus subtilis var. globigii spores (BG) in outdoor field scenarios. An airborne vapor monitor (AVM) ion mobility spectrometry (IMS) vapor detector was interfaced to a biological sample processing and transfer introduction system. The biological sample processing was accomplished by quartz tube pyrolysis (Py), and the resultant vapor was transferred by gas chromatography (GC) to the IMS detector. The Py-GC/IMS system can be described as a hyphenated device where two analytical dimensions, in series, allow the separation and isolation of individual components from the pyrolytic decomposition of biological analytes. Gram-positive spores such as BG contain 5–15% by weight of dipicolinic acid (DPA), and picolinic acid is a pyrolysis product of DPA. Picolinic acid has a high proton affinity, and it is detected in a sensitive fashion by the atmospheric pressure-based IMS device. Picolinic acid occupies a unique region in the GC/IMS data domain with respect to other bacterial pyrolysis products. A 1000 to 1, air-to-air aerosol concentrator was interfaced to the Py-GC/IMS instrument, and the system was placed in an open-air, western United States desert environment. The system was tested with BG spore aerosol releases, and the instrument was remotely operated during a trial. A Met-One aerosol particle counter was placed next to the Py-GC/IMS so as to obtain a real-time record of the ambient and bacterial aerosol challenges. The presence/absence of an aerosol event, determined by an aerosol particle counter and a slit-sampler–agar-plate system, was compared to the presence/absence of a picolinic acid response in a GC/IMS data window at selected times in a trial with respect to a BG challenge. In the 21 BG trials, the Py-GC/IMS instrument experienced two true negatives and no false positives, and developed a software failure in one trial. The remaining 18 trials were true positive determinations for the presence of BG aerosol, and a limit of detection for the Py-GC/IMS instrument was estimated at approximately 3300 BG spore-containing particles. © John Wiley & Sons, Inc. 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引用次数: 40
Field detection of bacillus spore aerosols with stand‐alone pyrolysis–gas chromatography–ion mobility spectrometry
A commercially available, hand-held chemical vapor detector was modified to detect gram-positive Bacillus subtilis var. globigii spores (BG) in outdoor field scenarios. An airborne vapor monitor (AVM) ion mobility spectrometry (IMS) vapor detector was interfaced to a biological sample processing and transfer introduction system. The biological sample processing was accomplished by quartz tube pyrolysis (Py), and the resultant vapor was transferred by gas chromatography (GC) to the IMS detector. The Py-GC/IMS system can be described as a hyphenated device where two analytical dimensions, in series, allow the separation and isolation of individual components from the pyrolytic decomposition of biological analytes. Gram-positive spores such as BG contain 5–15% by weight of dipicolinic acid (DPA), and picolinic acid is a pyrolysis product of DPA. Picolinic acid has a high proton affinity, and it is detected in a sensitive fashion by the atmospheric pressure-based IMS device. Picolinic acid occupies a unique region in the GC/IMS data domain with respect to other bacterial pyrolysis products. A 1000 to 1, air-to-air aerosol concentrator was interfaced to the Py-GC/IMS instrument, and the system was placed in an open-air, western United States desert environment. The system was tested with BG spore aerosol releases, and the instrument was remotely operated during a trial. A Met-One aerosol particle counter was placed next to the Py-GC/IMS so as to obtain a real-time record of the ambient and bacterial aerosol challenges. The presence/absence of an aerosol event, determined by an aerosol particle counter and a slit-sampler–agar-plate system, was compared to the presence/absence of a picolinic acid response in a GC/IMS data window at selected times in a trial with respect to a BG challenge. In the 21 BG trials, the Py-GC/IMS instrument experienced two true negatives and no false positives, and developed a software failure in one trial. The remaining 18 trials were true positive determinations for the presence of BG aerosol, and a limit of detection for the Py-GC/IMS instrument was estimated at approximately 3300 BG spore-containing particles. © John Wiley & Sons, Inc. Field Analyt Chem Technol 3: 315–326, 1999
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