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Journal of Occupational and Environmental Hygiene Volume 9, 2012 - Issue 1
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Original Articles

Assessing Potential Nanoparticle Release During Nanocomposite Shredding Using Direct-Reading Instruments

Peter C. Raynor University of Minnesota, Division of Environmental Health Sciences, Minneapolis, Minnesota
,
Jessica Ingraham Cebula University of Minnesota, Division of Environmental Health Sciences, Minneapolis, Minnesota
,
Jeffrey S. Spangenberger Argonne National Laboratory, Argonne, Illinois
,
Bernard A. Olson University of Minnesota, Department of Mechanical Engineering, Minneapolis, Minnesota
,
Jean M. Dasch General Motors R&D Center, Warren, Michigan
&
James B. D’Arcy General Motors R&D Center, Warren, Michigan
Pages 1-13 | Published online: 14 Dec 2011

REFERENCES

  • Paul , D. R. and Robeson , L. M. 2008 . Polymer nanotechnology: Nanocomposites . Polymer , 49 : 3187 – 3204 .
  • ASTM . 2006 . Standard Terminology Relating to Nanotechnology (ASTM Standard E2456-06) , West Conshohocken , Pa : ASTM International .
  • Ferin , J. and Oberdörster , G. 1992 . Polymer degradation and ultrafine particles—Potential inhalation hazards for astronauts . Acta Astronaut. , 27 : 257 – 259 .
  • Oberdörster , G. , Gelein , R. M. , Ferin , J. and Weiss , B. 1995 . Association of particulate air pollution and acute mortality: Involvement of ultrafine particles? . Inhal. Toxicol. , 7 : 111 – 124 .
  • Peters , A. , Wichmann , H. E. , Tuch , T. , Heinrich , J. and Heyder , J. 1997 . Respiratory effects are associated with the number of ultrafine particles . Am. J. Resp. Crit. Care , 155 : 1376 – 1383 .
  • Utell , M. J. and Frampton , M. W. 2000 . Acute health effects of ambient air pollution: The ultrafine particle hypothesis . J. Aerosol Med. , 13 : 355 – 359 .
  • Donaldson , K. , Stone , V. , Gilmore , P. S. , Brown , D. M. and MacNee , W. 2000 . Ultrafine particles: Mechanisms of lung injury . Philos. T. Roy. Soc. A , 358 : 2741 – 2749 .
  • Oberdörster , G. 2000 . Toxicology of ultrafine particles: In vivo studies . Philos. T. Roy. Soc. A , 358 : 2719 – 2740 .
  • Oberdörster , G. and Utell , M. J. 2002 . Ultrafine particles in the urban air: To the respiratory tract and beyond? . Environ. Health Perspect. , 110 : A440 – A441 .
  • Dick , C. A.J. , Brown , D. M. , Donaldson , K. and Stone , V. 2003 . The role of free radicals in the toxic and inflammatory effects of four different ultrafine particle types . Inhal. Toxicol. , 15 : 39 – 52 .
  • MacNee , W. and Donaldson , K. 2003 . Mechanism of lung injury caused by PM10 and ultrafine particles with special reference to COPD . Eur. Respir. J. , 21 : 47S – 51S .
  • Barlow , P. G. , Clouter-Baker , A. , Donaldson , K. , MacCallum , J. and Stone , V. 2005 . Carbon black nanoparticles induce type II epithelial cells to release chemotaxins for alveolar macrophages . Part. Fibre Technol. , 2 : 11 – 24 .
  • Duffin , R. , Tran , L. , Brown , D. , Stone , V. and Donaldson , K. 2007 . Proinflammogenic effects of low-toxicity and metal nanoparticles in vivo and in vitro: Highlighting the role of particle surface area and surface reactivity . Inhal. Toxicol. , 19 : 849 – 856 .
  • Oberdörster , G. , Ferin , J. and Lehnert , B. E. 1994 . Correlation between particle-size, in-vivo particle persistence, and lung injury . Environ. Health Perspect. , 102 : 173 – 179 .
  • Donaldson , K. , Beswick , P. H. and Gilmour , P. S. 1996 . Free radical activity associated with the surface of unifying factor in determining biological activity? . Toxicol. Lett. , 88 : 293 – 298 .
  • Lison , D. , Lardot , C. , Huaux , F. , Zanetti , G. and Fubini , B. 1997 . Influence of particle surface area on the toxicity of insoluble manganese dioxide dusts . Arch. Toxicol. , 71 : 725 – 729 .
  • Donaldson , K. 1999 . “ Mechanisms for toxicity: In vitro ” . In IEH Report on: Approaches to Predicting Toxicity from Occupational Exposure to Dusts. Report R11 , Edited by: Shuker , L. and Levy , L. 17 – 26 . Norwich, UK: Page Bros .
  • Cullen , R. T. , Tran , C. L. Buchanan , D. 2000 . Inhalation of poorly soluble particles. I. Differences in inflammatory response and clearance during exposure . Inhal. Toxicol. , 12 : 1089 – 1111 .
  • 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 .
  • 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. Pharm. , 175 : 191 – 199 .
  • Renwick , L. C. , Donaldson , K. and Clouter , A. 2001 . Impairment of alveolar macrophage phagocytosis by ultrafine particles . Toxicol. Appl. Pharm. , 172 : 119 – 127 .
  • Moshhammer , H. and Neuberger , M. 2003 . The active surface of suspended particles as a predictor of lung function and pulmonary symptoms in Austrian school children . Atmos. Environ. , 37 : 1737 – 1744 .
  • Stone , V. , Shaw , J. , Brown , D. M. , MacNee , W. , Faux , S. P. and Donaldson , K. 1998 . The role of oxidative stress in the prolonged inhibitory effect of ultrafine carbon black on epithelial cell function . Toxicol. in Vitro , 12 : 649 – 658 .
  • McCawley , M. , Kent , M. and Berakis , M. 2001 . Ultrafine beryllium number concentration as a possible metric for chronic beryllium disease risk . Appl. Occup. Environ. Hyg. , 16 : 631 – 638 .
  • Kuhlbusch , T. , Neumann , S. and Fissan , H. 2004 . Number size distribution, mass concentration, and particle composition of PM1, PM2.5, and PM10 in bag filling areas of carbon black production . J. Occup. Environ. Hyg. , 1 : 660 – 671 .
  • Park , J. Y. , Ramachandran , G. , Raynor , P. C. and Olson , G. M. Jr . 2010 . Determination of particle concentration rankings by spatial mapping of particle surface area, number, and mass concentrations in a restaurant and a die casting plant . J. Occup. Environ. Hyg. , 7 : 466 – 476 .
  • Peters , T. M. , Heitbrink , W. A. , Evans , D. E. , Slavin , T. J. and Maynard , A. D. 2006 . The mapping of fine and ultrafine particle concentrations in an engine machining and assembly facility . Ann. Occup. Hyg. , 50 : 249 – 257 .
  • Tsai , S. J. , Ada , E. , Isaacs , J. A. and Ellenbecker , M. J. 2009 . Airborne nanoparticle exposures associated with the manual handling of nanoalumina and nanosilver in fume hoods . J. Nanopart. Res. , 11 : 147 – 161 .
  • Tsai , S. J. , Ashter , A. , Ada , E. , Mead , J. L. , Barry , C. F. and Ellenbecker , M. J. 2008 . Control of airborne nanoparticles release during compounding of polymer nanocomposites . NANO , 3 : 301 – 309 .
  • Tsai , S. J. , Huang , R. F. and Ellenbecker , M. J. 2010 . Airborne nanoparticle exposures while using constant-flow, constant-velocity, and air-curtain isolated fume hoods . Ann. Occup. Hyg , 54 : 78 – 87 .
  • Mazzuckelli , L. F. , Methner , M. M. , Birch , M. E. , Evans , D. E. , Ku , B. K. Crouch , K. 2007 . Identification and characterization of potential sources of worker exposure to carbon nanofibers during polymer composite laboratory operations . J. Occup. Environ. Hyg. , 4 : D125 – D130 .
  • Bello , D. , Wardle , B. L. Yamamoto , N. 2009 . Exposure to nanoscale particles and fibers during machining of hybrid advanced composites containing carbon nanotubes . J. Nanopart. Res. , 11 : 231 – 249 .
  • Daniels , E. J. , Carpenter , J. A. Jr. , Duranceau , C. , Fisher , M. , Wheeler , C. and Winslow , G. 2004 . Sustainable end-of-life vehicle recycling: R&D collaboration between industry and the U.S. DOE . JOM-J. Min. Met. Mat. S , 56 : 28 – 32 .
  • U.S. Council for Automotive Research . Did You Know That Cars Are the Most Recycled Product in America? . [Online] http://www.uscar.org/guest/article_view.php?articles_id=192 (Accessed March 25, 2011)
  • Kanari , N. , Pineau , J.-L. and Shallari , S. 2003 . End-of-life vehicle recycling in the European Union . JOM-J. Min. Met. Mat. S. , 55 : 15 – 19 .
  • University of Chicago/Argonne National Laboratory, U.S. Department of Energy (DOE) . 2009 . Recycling End-of-Life Vehicles of the Future (ANL/ES-C0201801) 13 by B.J. Jody, J.A. Pomykala Jr., J.S. Spangenberger, and E.J. Daniels
  • Kumar , V. and Sutherland , J. W. 2008 . Sustainability of the automotive recycling infrastructure: Review of current research and identification of future challenges . Int. J. Sust. Manufact , 1 : 145 – 167 .
  • Brockmann , J. E. 2001 . “ Sampling and transport of aerosols ” . In Aerosol Measurement: Principles, Techniques, and Applications , Edited by: Baron , P. A. and Willeke , K. 143 – 195 . New York : Wiley-Interscience .

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