The Variability of Delivered Dose of Aerosols with the Same Respirable Concentration but Different Size Distributions

doi:10.1093/annhyg/mef046

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Ann. occup. Hyg., Vol. 46, No. 4, pp. 401-407, 2002
© 2002 British Occupational Hygiene Society
Published by Oxford University Press

The Variability of Delivered Dose of Aerosols with the Same Respirable Concentration but Different Size Distributions

N. A. ESMEN^*, D. L. JOHNSON and G. M. AGRON

Aerosols Research Laboratory, University of Oklahoma Health Sciences Centre, PO Box 26901, Oklahoma City, OK 73190, USA

Received 17 July 2001; in final form 14 December 2001

The influences of aerosol size distribution and breath tidalvolume on respirable dose estimates were examined for mouthbreathing using the ACGIH/ISO/CEN criterion for respirable-equivalentaerosols. Actual tissue doses predicted from a set of pulmonaryempirical deposition equations, the Heyder–Rudolf equations,were compared with deposition assumed to occur under the penetration-basedrespirable dust sampling criterion. Deposition estimate errorsranged from $~$ 1/10- to 10-fold, with aerosol mass median aerodynamicequivalent diameter and geometric standard deviation as wellas tidal volume each showing a substantial influence under appropriateconditions. These findings demonstrate that reliance on respirableaerosol sampling data obtained with devices performing on apenetration-based sampling criterion may lead to erroneous dose–responserelationships in exposure standard development as well as exposuremisclassification errors during epidemiological studies. A morereliable dose estimate would be obtained using devices withcollection efficiency performance closely matching the alveolardeposition prediction curves of Heyder and Rudolf. We believethat if it is not currently required, the development of a deposition-basedaerosol sampling methodology will soon be required for the determinationand quantification of inhaled aerosol-induced adverse healtheffects.

Keywords: error; misclassification; respirable; size-selective sampling

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