SEARCH

SEARCH BY CITATION

References

  • Altman, P.L. and Dittmer, D.S. (1971) Respiration and Circulation, Bethesda, Maryland, Federation of American Societies for Experimental Biology.
  • Araujo, G.A.L., Freire, R.C.S., Silva, J.F., Oliveira, A. and Jaguaribe, E.F. (2004) Breathing Flow Measurement With Constant Temperature Hot-Wire Anemometer for Forced Oscillation Technique, Proceedings of the 21st IEEE, Como, Italy, Instrumentation and Measurement Technology Conference, 1, 730733.
  • Baldwin, E.D., Cournand, A. and Richards, D.W. (1948) Pulmonary insufficiency: I. Physiological classification, clinical methods of analysis, standard values in normal subjects, Medicine (Baltimore), 27, 243278.
  • Chao, C.Y.H., Wan, M.P., Morawska, L., Johnson, G.R., Ristovski, Z.D., Hargreaves, M., Mengersen, K., Corbett, S., Li, Y., Xie, X. and Katoshevski, D. (2009) Characterization of expiration air jets and droplet size distributions immediately at the mouth opening, J. Aerosol Sci., 40, 122133.
  • Corbett, E.L., Watt, C.J., Walker, N., Maher, D., Williams, B.G., Raviglione, M.C. and Dye, C. (2003) The growing burden of tuberculosis: global trends and interactions with the HIV epidemic, Arch. Intern. Med., 163, 10091021.
  • Douglas, N.J., White, D.P., Weil, J.V. and Zwillich, C.W. (1983) Effect of breathing route on ventilation and ventilatory drive, Respir. Physiol., 51, 209218.
  • Duguid, J.P. (1945) The size and the duration of air-carriage of respiratory droplets and droplet-nuclei, J. Hygiene, 54, 471479.
  • Dye, C., Scheele, S., Dolin, P., Pathania, V. and Raviglione, M.C. (1999) Global burden of tuberculosis: estimated incidence, prevalence, and mortality by country, JAMA, 282, 677686.
  • Edwards, D.A., Man, J.C., Brand, P., Katstra, J.P., Sommerei, K., Stone, H.A., Nardell, E. and Scheuch, G. (2004) Inhaling to mitigate exhaled bioaerosols, Proc. Natl Acad. Sci. USA, 101, 1738317388.
  • Fabian, P., McDevitt, J.J., DeHaan, W.H., Fung, R.O.P., Cowling, B.J., Chan, K.H., Leung, G.M. and Milton, D.K. (2008) Influenza virus in human exhaled breath: an observational study, PLoS ONE, 3, 16.
  • Fairbanks, G. (1940) Voice and Articulation Drillbook, 2nd edn, New York, Harper & Row, p. 127.
  • Fairchild, C.I. and Stamper, J.K. (1987) Particle concentration in exhaled breath, Am. Ind. Hyg. Assoc. J., 48, 948949.
  • Gao, N. and Niu, J. (2006) Transient CFD simulation of the respiration process and interpersonal exposure assessment, Building Environ., 41, 12141222.
  • Gehan, E.A. and George, S.L. (1970) Estimation of human body surface area from height and weight, Cancer Chemother. Rep., 54, 225235.
  • Goldman, H.I. and Becklake, M.R. (1959) Respiratory function tests; normal values at median altitudes and the prediction of normal results, Amer. Rev. Tuberc. Pulm. Dis., 79, 457467.
  • Gupta, J.K., Lin, C.H. and Chenn, Q. (2009) Flow Dynamics and Characterization of a Cough. Indoor Air,Manuscript ID INA-08-12-161.
  • Holmes, N.S. and Morawska, L. (2006) A review of dispersion modelling and its application to the dispersion of particles: An overview of different dispersion models available, Atmos. Environ., 40, 59025928.
  • Hoppe, P. (1981) Temperature of Expired Air under Varying Climatic Conditions, Int. J. Biometeor., 25, 127132.
  • Jennison, M.W. (1942) Atomizing of mouth and nose secretions into the air as revealed by high speed photography, Aerobiology, 17, 106128.
  • Kera, T. and Maruyama, H. (2005) The effect of posture on respiratory activity of the abdominal muscles, J. Physiol. Anthropol. Appl. Human Sci., 24, 259265.
  • Morawska, L., Johnson, G.R., Ristovski, Z., Hargreaves, M., Mengersen, K., Chao, C.Y.H., Li, Y. and Katoshevski, D. (2009) Size Distribution and Sites of Origins of Droplets Expelled from the Human Respiratory Tract During Expiratory Activities, J. Aerosol Sci., 40, 256269.
  • Papineni, R.S. and Rosenthal, F.S. (1997) The size distribution of droplets in the exhaled breath of healthy human subjects, J. Aerosol Med., 10, 105116.
  • Robinson, S. (1938) Experimental studies of physical fitness in relation to age, Eur. J. Appl. Physiol., 10, 251323.
  • Seaver, E.J., Dalston, R.M., Leeper, H.A. and Adams, L.E. (1991) A study of nasometric values for normal nasal resonance, J. Speech, Language Hearing Res. ASHA, 34, 715721.
  • Viboud, C., Boelle, P.Y., Pakdaman, K., Carrat, F., Valleron, A.-J. and Flahault, A. (2004) Influenza epidemics in the United States, France, and Australia, 1972–1997, Emerg. Infect. Dis., 10, 3239.
  • Wells, W.F., Wells, M.W. and Mudd, S. (1939) Infection of Air: Bacteriologic and Epidemiologic Factors, Am. J. Public Health, 29, 863880.
  • Zhao, B., Zhang, Z. and Li, X. (2005) Numerical Study of Transport of droplets or particles generated by respiratory system indoors, Building Environ., 40, 10321039.
  • Zhu, S., Kato, S. and Yang, J.H. (2006a) Investigation into airborne transport characteristics of air-flow due to coughing in a stagnant room environment, Am. Soc. Heating, Refrigerating Air-Conditioning Eng. Trans., 112, 123133.
  • Zhu, S., Kato, S. and Yang, J.H. (2006b) Study on transport characteristics of saliva droplets produced by coughing in a calm indoor environment, Building Environ., 41, 16911702.