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Development of a method to detect and quantify Aspergillus fumigatus conidia by quantitative PCR for environmental air samples.

McDevitt JJ; Lees PSJ; Merz WG; Schwab KJ
Mycopathologia 2004 Oct; 158(3):325-335
Exposure to Aspergillus fumigatus is linked with respiratory diseases such as asthma, invasive aspergillosis, hypersensitivity pneumonitis, and allergic bronchopulmonary aspergillosis. Molecular methods using quantitative PCR (qPCR) offer advantages over culture and optical methods for estimating human exposures to microbiological agents such as fungi. We describe an assay that uses lyticase to digest A. fumigatus conidia followed by TaqMan qPCR to quantify released DNA. This method will allow analysis of airborne A. fumigatus samples collected over extended time periods and provide a more representative assessment of chronic exposure. The method was optimized for environmental samples and incorporates: single tube sample preparation to reduce sample loss, maintain simplicity, and avoid contamination; hot start amplification to reduce non-specific primer/probe annealing; and uracil-N-glycosylase to prevent carryover contamination. An A. fumigatus internal standard was developed and used to detect PCR inhibitors potentially found in air samples. The assay detected fewer than 10 A. fumigatus conidia per qPCR reaction and quantified conidia over a 4-log10 range with high linearity (R 2 > 0.99) and low variability among replicate standards (CV=2.0%) in less than 4 h. The sensitivity and linearity of qPCR for conidia deposited on filters was equivalent to conidia calibration standards. A. fumigatus DNA from 8 isolates was consistently quantified using this method, while non-specific DNA from 14 common environmental fungi, including 6 other Aspergillus species, was not detected. This method provides a means of analyzing long term air samples collected on filters which may enable investigators to correlate airborne environmental A. fumigatus conidia concentrations with adverse health effects
Fumigants; Respiration; Respiratory infections; Respiratory system disorders; Pulmonary disorders; Pulmonary function; Pulmonary system; Pulmonary system disorders; Fungi; Fungal infections; Fungal diseases; Bronchial asthma; Pneumoconiosis; Exposure assessment; Sampling; Sampling methods; Air sampling; Airborne particles; Author Keywords: airborne fungi; Aspergillus fumigatus; conidia; filter; air monitoring; quantitative PCR; sample inhibition
Publication Date
Document Type
Journal Article
Funding Type
Fiscal Year
Identifying No.
Grant-Number-T42-CCT-310419; Grant-Number-T42-OH-008428
Issue of Publication
Source Name
Performing Organization
Johns Hopkins University
Page last reviewed: June 15, 2021
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