Advanced search
Publication Cover
Aerosol Science and Technology Volume 46, 2012 - Issue 12
Submit an article Journal homepage
755
Views
29
CrossRef citations to date
0
Altmetric
Original Articles

Toward Developing A New Occupational Exposure Metric Approach for Characterization of Diesel Aerosols

Emanuele G. Cauda U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Office of Mining Safety and Health Research, Pittsburgh, Pennsylvania, USA
,
Bon Ki Ku U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Division of Applied Research and Technology, Cincinnati, Ohio, USA
,
Arthur L. Miller U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control and Prevention, National Institute for Occupational Safety and Health, Office of Mining Safety and Health Research, Pittsburgh, Pennsylvania, USA
&
Teresa L. Barone Emissions and Catalysts Research Center, Oak Ridge National Laboratory, Knoxville, Tennessee, USA
Pages 1370-1381 | Received 12 Jan 2012, Accepted 05 Jun 2012, Published online: 17 Aug 2012

REFERENCES

  • 71 Fed. Reg. 28924 . 2006 . “ Mine Safety and Health Administration: 30 CFR 57: Diesel Particulate Matter Exposure of Underground Metal and Nonmetal Miners. Limit on Concentration of Diesel Particulate Matter, Code of Federal Regulations ” . Washington , DC : U.S. Government Printing Office, Office of the Federal Register .
  • Alfoldy , B. , Giechaskiel , B. , Hofmann , W. and Drossinos , Y. 2009 . Size-distribution Dependent Lung Deposition Of Diesel Exhaust Particles . J. Aerosol Sci. , 40 : 652 – 663 .
  • Asbach , C. , Fissan , H. , Stahlmecke , B. , Kuhlbusch , T. A. J. and Pui , D. Y. H. 2009 . Conceptual Limitations and Extensions of Lung-deposited Nanoparticle Surface Area Monitor (NSAM) . J. Nanopart. Res. , 11 : 101 – 109 .
  • Balbus , J. M. , Maynard , A. D. , Colvin , V. L. , Castranova , V. , Daston , G. P. Denison , R. A. 2007 . Meeting Report: Hazard Assessment for Nanoparticles - Report from an Interdisciplinary Workshop . Environ. Health Perspect. , 115 : 1654 – 1659 .
  • Benbrahim-Tallaa , L. , Baan , R. A. , Grosse , Y. , Lauby-Secretan , B. , El Ghissassi , F. Bouvard , V. 2012 . Carcinogenicity of Diesel-engine and Gasoline-engine Exhausts and Some Nitroarenes . Lancet Oncol. , 13 : 663 – 664 .
  • Birch , M. E. 2002 . Occupational Monitoring of Particulate Diesel Exhaust by NIOSH Method 5040 . Appl. Occup. Environ. Hyg. , 17 : 400 – 405 .
  • Brown , D. M. , Wilson , M. R. , MacNee , W. , Stone , V. and Donaldson , K. 2001 . Size-dependent Proinflammatory Effects of Ultrafine Polystyrene Particles: A Role for Surface Area and Oxidative Stress in the Enhanced Activity of Ultrafines . Toxicol. Appl. Pharmacol. , 175 : 191 – 199 .
  • Brunauer , S. , Emmett , P. H. and Teller , E. 1938 . Adsorption of Gases in Multimolecular Layers . J. Ann. Chem. Soc. , 60 : 309 – 319 .
  • Bugarski , A. D. , Schnakenberg , G. H. , Hummer , J. A. , Cauda , E. , Janisko , S. J. and Patts , L. D. 2009 . Effects of Diesel Exhaust Aftertreatment Devices on Concentrations and Size Distribution of Aerosols in Underground Mine Air . Environ. Sci. Technol. , 43 : 6737 – 6743 .
  • Bugarski , A. D. , Schnakenberg , G. H. , Noll , J. D. , Mischler , S. E. , Patts , L. D. Hummer , J. A. 2006 . “ ). Effectiveness of selected diesel particulate matter control technologies for underground mining applications: Isolated zone study, 2003, Report of Investigations 9667, 2006–126 ” . Cincinnati , Ohio : U.S. Department of Health and Human Services, Centers for Disease Control and Prevention and National Institute for Occupational Safety and Health, eds. .
  • Chung , A. , Lall , A. A. and Paulson , S. E. 2008 . Particulate Emissions by a Small Non-road Diesel Engine: Biodiesel and Diesel Characterization and Mass Measurements Using the Extended Idealized Aggregates Theory . Atmos. Environ. , 42 : 2129 – 2140 .
  • Evans , D. E. , Ku , B. K. , Birch , M. E. and Dunn , K. H. 2010 . Aerosol Monitoring during Carbon Nanofiber Production: Mobile Direct-Reading Sampling . Ann. Occup. Hyg. , 54 : 514 – 531 .
  • Fissan , H. , Neumann , S. , Trampe , A. , Pui , D. Y. H. and Shin , W. G. 2007 . Rationale and Principle of an Instrument Measuring Lung Deposited Nanoparticle Surface Area . J. Nanopart. Res. , 9 : 53 – 59 .
  • Fubini , B. , Ghiazza , M. and Fenoglio , I. 2010 . Physico-chemical Features of Engineered Nanoparticles Relevant to their Toxicity . Nanotoxicology , 4 : 347 – 363 .
  • Fuchs , N. A. 1963 . On the Stationary Charge Distribution on Aerosol Particles in a Bipolar Ionic Atmosphere . Geofisica Pura E Applicata , 56 : 185 – 193 .
  • Giechaskiel , B. , Alfoldy , B. and Drossinos , Y. 2009 . A Metric for Health Effects Studies of Diesel Exhaust Particles . Aerosol Sci. , 40 : 639 – 651 .
  • Harris , S. J. and Maricq , M. M. 2001 . Signature Size Distributions for Diesel and Gasoline Engine Exhaust Particulate Matter . J. Aerosol Sci. , 32 : 749 – 764 .
  • Heitbrink , W. A. , Evans , D. E. , Ku , B. K. , Maynard , A. D. , Slavin , T. J. and Peters , T. M. 2009 . Relationships Among Particle Number, Surface Area, and Respirable Mass Concentrations in Automotive Engine Manufacturing . J. Occup. Environ. Hyg. , 6 : 19 – 31 .
  • Hesterberg , T. W. , Long , C. M. , Lapin , C. A. , Hamade , A. K. and Valberg , P. A. 2010 . Diesel Exhaust Particulate (DEP) and Nanoparticle Exposures: What do DEP Human Clinical Studies Tell Us About Potential Human Health Hazards Of Nanoparticles? . Inhal. Toxicol. , 22 : 679 – 694 .
  • Jung , H. J. and Kittelson , D. B. 2005 . Characterization of Aerosol Surface Instruments in Transition Regime . Aerosol Sci. Technol. , 39 : 902 – 911 .
  • Karakoti , A. S. , Hench , L. L. and Seal , S. 2006 . The Potential Toxicity of Nanomaterials - The Role of Surfaces . Jom , 58 : 77 – 82 .
  • Kittelson , D. B. 1998 . Engines and Nanoparticles: A Review . J. Aerosol Sci. , 29 : 575 – 588 .
  • Ku , B. K. 2010 . Determination of the Ratio of Diffusion Charging-based Surface Area to Geometric Surface Area for Spherical Particles in the Size Range of 100–900 nm . J. Aerosol Sci. , 41 : 835 – 847 .
  • Ku , B. K. and Kulkarni , P. 2012 . Comparison of Diffusion Charging and Mobility-based Methods for Measurement of Aerosol Agglomerate Surface Area . J. Aerosol Sci. , 47 : 100 – 110 .
  • Ku , B. K. and Maynard , A. D. 2005 . Comparing Aerosol Surface-area Measurements of Monodisperse Ultrafine Silver Agglomerates by Mobility Analysis, Transmission Electron Microscopy and Diffusion Charging . J. Aerosol Sci. , 36 : 1108 – 1124 .
  • Lall , A. A. and Friedlander , S. K. 2006 . On-line Measurement of Ultrafine Aggregate Surface Area and Volume Distributions by Electrical Mobility Analysis: I. Theoretical Analysis . J. Aerosol Sci. , 37 : 260 – 271 .
  • Marple , V. A. and Rubow , K. L. 1983 . An Aerosol Chamber for Instrument Evaluation and Calibration . Am. Ind. Hyg. Assoc. J. , 44 : 361 – 367 .
  • Mathis , U. , Mohr , M. , Kaegi , R. , Bertola , A. and Boulouchos , K. 2005 . Influence of Diesel Engine Combustion Parameters on Primary Soot Particle Diameter . Environ. Sci. Technol. , 39 : 1887 – 1892 .
  • Maynard , A. and Jensen , P. 2001 . “ Aerosol Measurement in the Workplace ” . In Aerosol Measurement: Principles, techniques and applications , Edited by: Baron , P. A. and Willeke , K. 779 – 799 . New York : Wiley Interscience .
  • Maynard , A. and Kuempel , E. 2005 . Airborne Nanostructured Particles and Occupational Health . J. Nanopart. Res. , 7 : 587 – 614 .
  • Maynard , A. D. and Aitken , R. J. 2007 . Assessing Exposure to Airborne Nanomaterials: Current Abilities and Future Requirements . Nanotoxicology , 1 : 26 – 41 .
  • Miller , A. , Frey , G. , King , G. and Sunderman , C. 2010 . A Handheld Electrostatic Precipitator for Sampling Airborne Particles and Nanoparticles . Aerosol Sci. Technol. , 44 : 417 – 427 .
  • Monteiller , C. , Tran , L. , MacNee , W. , Faux , S. , Jones , A. Miller , B. 2007 . The Pro-inflammatory Effects of Low-toxicity Low-solubility Particles, Nanoparticles and Fine Particles, on Epithelial Cells In Vitro: The Role of Surface Area . Occup. Environ. Med. , 64 : 609 – 615 .
  • National Institute for Occupational Safety and Health NIOSH and CDC . 1988 . “ Carcinogenic effects of exposure to diesel exhaust, Current Intelligence Bulletin 50, DHHH Publication #88–116 ” . Atlanta
  • Noll , J. and Birch , M. E. 2008 . Effects of Sampling Artifacts on Occupational Samples of Diesel Particulate Matter . Environ. Sci. Technol. , 42 : 5223 – 5228 .
  • Noll , J. D. , Timko , R. J. , McWilliams , L. , Hall , P. and Haney , R. 2005 . Sampling Results of the Improved SKC Diesel Particulate Matter Cassette . J. Occup. Environ. Hyg. , 2 : 29 – 37 .
  • Ntziachristos , L. , Giechaskiel , B. , Ristimaki , J. and Keskinen , J. 2004 . Use of a Corona Charger for the Characterisation of Automotive Exhaust Aerosol . J. Aerosol Sci. , 35 : 943 – 963 .
  • Ntziachristos , L. , Polidori , A. , Phuleria , H. , Geller , M. D. and Sioutas , C. 2007 . Application of a Diffusion Charger for the Measurement of Particle Surface Concentration in Different Environments . Aerosol Sci. Technol. , 41 : 571 – 580 .
  • Oberdorster , G. , Oberdorster , E. and Oberdorster , J. 2005 . Nanotoxicology: An Emerging Discipline Evolving from Studies of Ultrafine Particles . Environ. Health Perspect. , 113 : 823 – 839 .
  • Park , K. , Kittelson , D. B. and McMurry , P. H. 2004 . Structural Properties of Diesel Exhaust Particles Measured by Transmission Electron Microscopy (TEM): Relationships to Particle Mass and Mobility . Aerosol Sci. Technol. , 38 : 881 – 889 .
  • Pauluhn , J. 2009 . Retrospective Analysis of 4-week Inhalation Studies in Rats with Focus on Fate and Pulmonary Toxicity of Two Nanosized Aluminum Oxyhydroxides (Boehmite) and Pigment-Grade Iron Oxide (Magnetite): The Key Metric of Dose is Particle Mass and Not Particle Surface Area . Toxicology , 259 : 140 – 148 .
  • Ramachandran , G. , Paulsen , D. , Watts , W. and Kittelson , D. 2005 . Mass, Surface Area and Number Metrics in Diesel Occupational Exposure Assessment . J. Environ. Monit. , 7 : 728 – 735 .
  • Sager , T. M. and Castranova , V. 2009 . Surface Area of Particle Administered Versus Mass in Determining the Pulmonary Toxicity of Ultrafine and Fine Carbon Black: Comparison to Ultrafine Titanium Dioxide . Particle and Fibre Toxicology , 6 ( 15 ) : 1 – 12 .
  • Sager , T. M. , Kommineni , C. and Castranova , V. 2008 . Pulmonary Response to Intratracheal Instillation of Ultrafine Versus Fine Titanium Dioxide: Role of Particle Surface Area . Particle and Fibre Toxicology , : 5
  • Schulte , P. , Murashov , V. , Zumwalde , R. , Kuempel , E. and Geraci , C. 2010 . Occupational Exposure Limits for Nanomaterials: State of the Art . J. Nanopart. Res. , 12 : 1971 – 1987 .
  • Swanson , J. , Kittelson , D. , Pui , D. and Watts , W. 2010 . Alternatives to the Gravimetric Method for Quantification of Diesel Particulate Matter near the Lower Level of Detection . J. Air Waste MA. , 60 : 1177 – 1191 .
  • Tran , C. L. , Buchanan , D. , Cullen , R. T. , Searl , A. , Jones , A. D. and Donaldson , K. 2000 . Inhalation of Poorly Soluble Particles. II. Influence of Particle Surface Area on Inflammation and Clearance . Inhal. Toxicol. , 12 : 1113 – 1126 .
  • Walton , W. H. and Vincent , J. H. 1998 . Aerosol Instrumentation in Occupational Hygiene: An Historical Perspective . Aerosol Sci. Technol. , 28 : 417 – 438 .
  • Wang , C.-S. and Friedlander , S. K. 2007 . Determination of Surface Area and Volume of Nanoparticle Aggregates Deposited in the Human Respiratory Tract Using DMA Data . J. Aerosol Sci. , 38 : 980 – 987 .
  • Wilson , W. E. , Stanek , J. , Han , H. S. , Johnson , T. , Sakurai , H. Pui , D. Y. H. 2007 . Use of the Electrical Aerosol Detector as an Indicator of the Surface Area of Fine Particles Deposited in the Lung . J. Air Waste MA. , 57 : 211 – 220 .
  • Wittmaack , K. 2007 . In Search of the Most Relevant Parameter for Quantifying Lung Inflammatory Response to Nanoparticle Exposure: Particle Number, Surface Area, or What? . Environ. Health Perspect. , 115 : 187 – 194 .
  • Woo , K. S. , Chen , D. R. , Pui , D. Y. H. and Wilson , W. E. 2001 . Use of Continuous Measurements of Integral Aerosol Parameters to Estimate Particle Surface Area . Aerosol Sci. Technol. , 34 : 57 – 65 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.