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Inhalation Toxicology
International Forum for Respiratory Research
Volume 20, 2008 - Issue 10
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Research Article

Deposition of Biomass Combustion Aerosol Particles in the Human Respiratory Tract

Jakob Löndahl Department of Physics, Lund University, Lund, SwedenCorrespondence[email protected]
,
Joakim Pagels Division of Aerosol Technology (EAT), Lund University, Lund, Sweden
,
Christoffer Boman Energy Technology and Thermal Process Chemistry, Umeå University, Umeå, Sweden
,
Erik Swietlicki Department of Physics, Lund University, Lund, Sweden
,
Andreas Massling Department of Physics, Lund University, Lund, Sweden
,
Jenny Rissler
,
Anders Blomberg Department of Respiratory Medicine and Allergy, University Hospital, Umeå, Sweden
,
Mats Bohgard Division of Aerosol Technology (EAT), Lund University, Lund, Sweden
&
Thomas Sandström Department of Respiratory Medicine and Allergy, University Hospital, Umeå, Sweden
 show all
Pages 923-933 | Received 19 Nov 2007, Accepted 28 Mar 2008, Published online: 06 Oct 2008

REFERENCES

  • A. Anselm, T. Heibel, J. Gebhart, and G. Ferron. (1990). “In vivo”-studies of growth factors of sodium chrloride particles in the human respiratory tract. J. Aerosol Sci. 21:S427–S430.
  • B. Asgharian. (2004). A model of deposition of hygroscopic particles in the human lung. Aerosol Sci. Technol. 38:938–947.
  • J. D. Blanchard, and K. Willeke. (1984). Total deposition of ultrafine sodium-chloride particles in human lungs. J. Appl. Physiol. 57:1850–1856.
  • B. C. Boman, A. B. Forsberg, and B. G. Jarvholm. (2003). Adverse health effects from ambient air pollution in relation to residential wood combustion in modern society. Scand. J. Work Environ. Health 29:251–260.
  • C. Boman, A. Nordin, D. Boström, and M. Öhman. (2004). Characterization of inorganic particulate matter from residential combustion of pelletized biomass fuels. Energy Fuels 18:338–348.
  • C. Boman. Particulate and gaseous emissions from residential biomass combustion. Doctoral dissertation Umeå University, Sweden, (2005) Applied Physics and Electronics.
  • D. Broday, and P. Georgopoulos. (2001). Growth and deposition of hygroscopic particulate matter in the human lungs. Aerosol Sci. Technol. 34:144–159.
  • D. A. Broday, and Y. Agnon. (2007). Asymmetric human lung morphology induces particle deposition variation. J. Aerosol Sci. 38:701–718.
  • D. C. Chalupa, P. E. Morrow, G. Oberdorster, M. J. Utell, and M. W. Frampton. (2004). Ultrafine particle deposition in subjects with asthma. Environ. Health Perspect. 112:879–882.
  • F. F. Cinkotau. (1971). The behaviour of sodium chloride particles in moist air. J. Aerosol Sci. 2:325–329.
  • D. R. Collins, R. C. Flagan, and J. H. Seinfeld. (2002). Improved inversion of scanning DMA data. Aerosol Sci. Technol. 36:1–9.
  • G. A. Ferron. (1977). The size of soluble aerosol particles as a function of the humidity of the air. Application to the human respiratory tract.. J. Aerosol Sci. 8:251–267.
  • W. Findeisen. (1935). The precipitation of small air-suspended particles in human lungs during respiration. Pflugers Arch. Ges. Physiol. Mensch. Tiere 236:367–379.
  • J. Gebhart, C. F. Schiller, M. J. Egan, and W. Nixon. (1989). On the relationship between experimental data for total deposition and model calculations. 1. Effect of instrumental dead space.. J. Aerosol Sci. 20:141–147.
  • J. Gebhart, A. Anselm, G. Ferron, J. Heyder, and W. Stahlhofen. Experimental data on total deposition of hygroscopic particles in the human respiratory tract, Third international aerosol conference, S. Masuda, and K. Takahashi. Pergamon Press, Kyoto, Japan, (1990) 1299–1302. Aerosols, science, industry, health and environment 1.
  • R. Gilbert, J. H. AuchinclossJr., W. Boden, and J. Brodsky. (1972). Changes in tidal volume, frequency, and ventilation induced by their measurement.. J. Appl. Physiol. 33:252–25.
  • G. Hänel, and J. Heyder. (1980). Deposition of hygroscopic atmospheric aerosol particles in the human respiratory tract. Luft 40:9–13.
  • E. Hedberg, A. Kristensson, M. Ohlsson, C. Johansson, P. A. Johansson, E. Swietlicki, V. Vesely, U. Wideqvist, and R. Westerholm. (2002). Chemical and physical characterization of emissions from birch wood combustion in a wood stove. Atmos. Environ. 36:4823–4837.
  • W. Hofmann, L. Morawska, and R. Bergmann. (2001). Environmental tobacco smoke deposition in the human respiratory tract: Differences between experimental and theoretical approaches. J. Aerosol Med. Depos. Clear. Effects Lung 14:317–326.
  • ICRP, and Human respiratory tract model for radiological protection. Elsevier Science, Oxford, (1995) International Commission on Radiological Protection, Publication 66.
  • Intergovernmental Panel on Climate Change, and Mitigation of climate change, Fourth assessment report. Cambridge University Press, , (2007) Available at www.ipcc.ch WMO, UNEP. Climate Change 2007.
  • M. J. Kleeman, J. J. Schauer, and G. R. Cass. (1999). Size and composition distribution of fine particulate matter emitted from wood burning, meat charbroiling, and cigarettes. Environ. Sci. Technol. 33:3516–3523.
  • H. D. Landahl, and R. G. Herrmann. (1948). On the retention of air-borne particulates in the human lung. J. Ind. Hyg. Toxicol. 30:181–188.
  • A. D. Lopez, C. D. Mathers, M. Ezzati, D. T. Jamison, and C. J. L. Murray. (2006). Global and regional burden of disease and risk factors, 2001: Systematic analysis of population health data. Lancet 367:1747–1757.
  • J. Löndahl, J. Pagels, E. Swietlicki, J. C. Zhou, M. Ketzel, A. Massling, and M. Bohgard. (2006). A set-up for field studies of respiratory tract deposition of fine and ultrafine particles in humans. J. Aerosol Sci. 37:1152–1163.
  • J. Löndahl, A. Massling, J. Pagels, E. Swietlicki, E. Vaclavik, and S. Loft. (2007). Size-resolved respiratory-tract deposition of fine and ultrafine hydrophobic and hygroscopic aerosol particles during rest and exercise. Inhal. Toxicol. 19:109–116.
  • L. Morawska, W. Barron, and J. Hitchins. (1999). Experimental deposition of environmental tobacco smoke submicrometer particulate matter in the human respiratory tract. Am. Ind. Hyg. Assoc. J. 60:334–339.
  • L. P. Naeher, M. Brauer, M. Lipsett, J. T. Zelikoff, C. D. Simpson, J. Q. Koenig, and K. R. Smith. (2007). Woodsmoke health effects: A review. Inhal. Toxicol. 19:67–106.
  • J. Pagels, C. Boman, J. Rissler, A. Massling, J. Löndahl, A. Wierzbicka, and E. Swietlicki. Residential biomass combustion aerosol—Influence of combustion conditions on physical and chemical particle characteristics. , , (2008) In preparation.
  • J. Pagels, M. Strand, J. Rissler, A. Szpila, A. Gudmundsson, M. Bohgard, L. Lillieblad, M. Sanati, and E. Swietlicki. (2003). Characteristics of aerosol particles formed during grate combustion of moist forest residue. J. Aerosol Sci. 34:1043–1059.
  • D. J. Rader, P. H. Mcmurry, and S. Smith. (1987). Evaporation rates of monodisperse organic aerosols in the 0.02-μ m-diameter to 0.2-μ m-diameter range.. Aerosol Sci. Technol. 6:247–260.
  • J. Rissler, J. Pagels, E. Swietlicki, A. Wierzbicka, M. Strand, L. Lillieblad, M. Sanati, and M Bohgard. (2005). Hygroscopic behavior of aerosol particles emitted from biomass fired grate boilers. Aerosol Sci. Technol. 39:919–930.
  • R. Sarangapani, and A. S. Wexler. (1996). Growth and neutralization of sulfate aerosols in human airways. J. Appl. Physiol. 81:480–490.
  • R. B. Schlesinger, N. Kunzli, G. M. Hidy, T. Gotschi, and M. Jerrett. (2006). The health relevance of ambient particulate matter characteristics: Coherence of toxicological and epidemiological inferences. Inhal. Toxicol. 18:95–125.
  • R. H. Stokes, and R. A. Robinson. (1966). Interactions in aqueous nonelectrolyte solutions: I. Solute solvent equilibria. J. Phys. Chem 70:2126–2130.
  • K. Svartengren, P. A. Lindestad, M. Svartengren, G. Bylin, K. Philipson, and P. Camner. (1994). Deposition of inhaled particles in the mouth and throat of asthmatic subjects. Eur. Respir. J 7:1467–1473.
  • E. Swietlicki, H.-C. Hansson, K. Hämeri, B. Svenningsson, A. Massling, G. McFiggans, P. H. McMurry, T. Petäjä, P. Tunved, M. Gysel, D. Topping, E. Weingartner, U. Baltensperger, J. Rissler, A. Wiedensohler, and M. Kulmala. (2008). Hygroscopic properties of sub-micrometer atmospheric aerosol particles measured with H-TDMA instruments in various environments—A review. Tellus B 60 (2):432–469.
  • I. N. Tang. (1997). Thermodynamic and optical properties of mixed-salt aerosols of atmospheric importance. J. Geophys. Res. Atmos. 102:1883–1893.
  • K. W. Tu, and E. O. Knutson. (1984). Total deposition of ultrafine hydrophobic and hygroscopic aerosols in the human respiratory system. Aerosol Sci. Technol. 3:453–465.
  • E. Weingartner, H. Burtscher, and U. Baltensperger. (1997). Hygroscopic properties of carbon and diesel soot particles. Atmos. Environ. 31:2311–2327.
  • P. Wiebert, A. Sanchez-Crespo, R. Falk, K. Philipson, A. Lundin, S. Larsson, W. Moller, W. G. Kreyling, and M. Svartengren. (2006). No significant translocation of inhaled 35-nm carbon particles to the circulation in humans. Inhal. Toxicol. 18:741–747.
  • Z. Zhang, C. Kleinstreuer, and C. S. Kim. (2006). Water vapor transport and its effects on the deposition of hygroscopic droplets in a human upper airway model. Aerosol Sci. Technol. 40:1–16.

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