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Inhalation Toxicology
International Forum for Respiratory Research
Volume 25, 2013 - Issue 5
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Research Article

Source and trajectories of inhaled particles from a surrounding environment and its deposition in the respiratory airway

Kiao InthavongSchool of Aerospace, Mechanical and Manufacturing Engineering;Platform Technologies Research Institute, RMIT University Bundoora, VICAustralia
,
Qin Jiang GeSchool of Aerospace, Mechanical and Manufacturing Engineering
,
Xiangdong LiSchool of Aerospace, Mechanical and Manufacturing Engineering
&
Ji Yuan TuSchool of Aerospace, Mechanical and Manufacturing Engineering;Platform Technologies Research Institute, RMIT University Bundoora, VICAustralia;Department of Building Science, Tsinghua University BeijingChinaCorrespondence[email protected]
Pages 280-291 | Received 16 Oct 2012, Accepted 26 Feb 2013, Published online: 24 Apr 2013

References

  • Agranovski IE, Pyankov OV, Altman IS. (2005). Bioaerosol contamination of ambient air as the result of opening envelopes containing microbial materials. Aerosol Sci Technol 39:1048–55
  • Anthony TR, Flynn MR, Eisner A. (2005). Evaluation of facial features on particle inhalation. Annals Occup Hyg 49:179–93
  • Baldwin PEJ, Maynard AD. (1998). A survey of wind speeds in indoor workplaces. Ann Occup Hyg 42:303–13
  • Bolashikov ZD, Melikov AK, Kierat W, et al. (2012). Exposure of health care workers and occupants to coughed airborne pathogens in a double-bed hospital patient room with overhead mixing ventilation. HVAC&R Res 18:602–15
  • Doorly DJ, Taylor DJ, Gambaruto AM, et al. (2008). Nasal architecture: form and flow. Philos Trans Royal Soc A: Math Phy Eng Sci 366:3225–46
  • Ganor E, Fischbein A, Brenner S, Froom P. (1992). Extreme airborne asbestos concentrations in a public building. British J Indust Med 49:486–8
  • Ge Q, Li X, Inthavong K, et al. (2013). Numerical study of the effects of human body heat on particle transport and inhalation in indoor environment. Buil Environ 59:1–9
  • Golshahi L, Finlay WH, Olfert JS, Tu J. (2010). Deposition of inhaled ultrafine aerosols in replicas of nasal airways of infants. Aerosol Sci Technol 44:741–52
  • Hofmann W, Golser R, Balashazy I. (2003). Inspiratory deposition efficiency of ultrafine particles in a human airway bifurcation model. Aerosol Sci Technol 37:988–94
  • Hsu DJ, Swift DL. (1999). The measurement of human inhalability of ultralarge aerosols in calm air using manikins. J Aerosol Sci 30:1331–43
  • Huston RL. (2009). Principles of biomechanics. UK: CRC Press, Taylor and Francis Group
  • Inthavong K, Ge Q, Se CMK, et al. (2011a). Simulation of sprayed particle deposition in a human nasal cavity including a nasal spray device. J Aerosol Sci 42:100–13
  • Inthavong K, Tu JY, Ahmadi G. (2009). Computational modelling of gas-particle flows with different particle morphology in the human nasal cavity. J Comput Multiphase Flows 1:57–82
  • Inthavong K, Tu J, Heschl C. (2011b). Micron particle deposition in the nasal cavity using the v2–f model. Comput Fluids 51:184–8
  • Inthavong K, Wen J, Tian ZF, Tu JY. (2008). Numerical study of fibre deposition in a human nasal cavity. J Aerosol Sci 39:253–65
  • Inthavong K, Zhang K, Tu J. (2011c). Numerical modelling of nanoparticle deposition in the nasal cavity and the tracheobronchial airway. Comput Meth Biomech Biomed Eng 14:633–43
  • Isabey D, Chang HK. (1981). Steady and unsteady pressure-flow relationships in central airways. J Appl Physiol 51:1338–48
  • Kelland P. (1992). Sick building syndrome, working environments and hospital staff. Indoor Built Environment 1:335–40
  • Kennedy NJ, Hinds WC. (2002). Inhalability of large solid particles. J Aerosol Sci 33:237–55
  • King Se CM, Inthavong K, Tu J. (2010). Inhalability of micron particles through the nose and mouth. Inhalation Toxicology 22:287–300
  • Lee J-H, Na Y, Kim S-K, Chung SK. (2010). Unsteady flow characteristics through a human nasal airway. Res Physiol Neurobiol 172:136--46
  • Li J, Yavuz I, Celik I, Guffey S. (2007). Predicting worker exposure—The effect of ventilation velocity, free-stream turbulence and thermal condition. J Occup Environ Hyg 4:864–74
  • Longest PW, Tian G, Walenga RL, Hindle M. (2012). Comparing MDI and DPI aerosol deposition using in vitro experiments and a new stochastic individual path (SIP) model of the conducting airways. Pharmaceutical Res 29:1670--88
  • Matida EA, Finlay WH, Lange CF, Grgic B. (2004). Improved numerical simulation for aerosol deposition in an idealized mouth-throat. J Aerosol Sci 35:1–19
  • Menter FR, Langtry RB, Likki SR, et al. (2006). A correlation-based transition model using local variables—part I: model formulation. J Turbomachinery 128:413–22
  • Moghadas H, Abouali O, Faramarzi A, Ahmadi G. (2011). Numerical investigation of septal deviation effect on deposition of nano/microparticles in human nasal passage. Res Physiol Neurobiol 177:9–18
  • Morsi SA, Alexander AJ. (1972). An investigation of particle trajectories in two-phase flow systems. J Fluid Mech 55:193–208
  • Namieśnik J, Górecki T, Kozdroń-Zabiega ła B, Lukasiak J. (1992). Indoor air quality (IAQ), pollutants, their sources and concentration levels. Buil Envir 27:339–56
  • Nazaroff W. (2004). Indoor particle dynamics. Indoor Air 14:175–83
  • Repace JL. (1982). Indoor air pollution. Envir Internat 8:21–36
  • Scott Duncan EJ, Kournikakis B, Ho J, Hill I. (2009). Pulmonary deposition of aerosolized bacillus atrophaeus in a swine model due to exposure from a simulated anthrax letter incident. Inhalation Toxicology 21:141–52
  • Sleeth DK, Vincent JH. (2009). Inhalability for aerosols at ultra-low windspeeds. J Phy: Conf Ser 151:1670--88
  • Vincent JH, Mark D, Miller BG, et al. (1990). Aerosol inhalability at higher windspeeds. J Aerosol Sc 21:577–86
  • Zhang Z, Kleinstreuer C. (2011). Laminar-to-turbulent fluid–nanoparticle dynamics simulations: model comparisons and nanoparticle-deposition applications. Internat J Num Meth Biomed Eng 27:1930–50
  • Zhu JH, Lee, HP, Lim KM, et al. (2011). Evaluation and comparison of nasal airway flow patterns among three subjects from Caucasian, Chinese and Indian ethnic groups using computational fluid dynamics simulation. Resp Physiol Neurobiol 175:62–9
  • Zhuang Z, Landsittel D, Benson S, et al. (2010). Facial anthropometric differences among gender, ethnicity, and age groups. Annal Occup Hyg 54:391–402

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