A miniaturized active sampler for the assessment of personal exposure to nitrogen dioxide

A personalized, miniaturized air sampling system was evaluated to estimate the daily exposure of pediatric asthmatics to nitrogen dioxide (NO₂). The lightweight device (170 g) uses a sampling pump connected to a solid sorbent tube containing triethanolamine (TEA)-impregnated molecular sieve. The pump is powered by a 9 V battery and samples air over a 24 h period at a collection rate of 0.100 L/min. After exposure, the solid sorbent is removed from the tubes for spectrophotometric analysis (Griess Assay). The lower detection limit of the overall method for NO₂ is 11 μg/m³. The linearity, precision and accuracy of the sampler was evaluated. Different NO₂ concentrations generated in the laboratory (range: 50 to 340 μg/m³) were simultaneously measured by the TEA tube samplers and colocated continuous chemiluminescent NO_x analyzers (reference method). The coefficient of determination for the laboratory test derived from ordinary linear regression (OLR) was r ²=0.99 (y _OLR=0.94x−4.58) and the precision 3.6%. Further, ambient NO₂ concentrations in the field (range: 10–120 μg/m³) were verified with continuous chemiluminescent monitors next to the active samplers. Reweighted least squares analysis (RLS) based on the least median squares procedure (LMS) resulted in a correlation of r ²=0.68 for a field comparison in Riverside, CA (y _RLS=1.01x−0.94) and r ²=0.92 in Los Angeles, CA (y _RLS=1.31x−7.12). The precision of the TEA tube devices was 7.4% (at 20–60 μg/m³ NO₂) under outdoor conditions. Data show that the performance of this small active sampling system was satisfactory for measuring environmental concentrations of NO₂ under laboratory and field conditions. It is useful for personal monitoring of NO₂ in environmental epidemiology studies where daily measurements are desired.