A methodology for estimating airborne virus exposures in indoor environments using the spatial distribution of expiratory aerosols and virus viability characteristics.
暂无分享,去创建一个
C. Chao | M. Wan | M P Wan | G. N. Sze To | C Y H Chao | G N Sze To | F Wei | S C T Yu | J K C Kwan | J. Kwan | F. Wei | S. C. T. Yu | Christopher Yu Hang Chao | Man Pun Wan | S. C. Yu | Joseph Kai Cho Kwan | G. N. S. To
[1] E. Cole,et al. Characterization of infectious aerosols in health care facilities: An aid to effective engineering controls and preventive strategies☆☆☆★ , 1998, American Journal of Infection Control.
[2] J. H. Hemmes,et al. Virus survival as a seasonal factor in influenza and poliomyelitis , 2006, Antonie van Leeuwenhoek.
[3] Y. Li,et al. Role of air distribution in SARS transmission during the largest nosocomial outbreak in Hong Kong. , 2005, Indoor air.
[4] E. Dubovi,et al. Airborne stability of tailless bacterial viruses S-13 and MS-2. , 1970, Applied microbiology.
[5] G Murphy,et al. Airborne spread of measles in a suburban elementary school. , 1978, American journal of epidemiology.
[6] P V Nielsen,et al. Dispersal of exhaled air and personal exposure in displacement ventilated rooms. , 2002, Indoor air.
[7] M. Gare,et al. Dilution of respiratory solutes in exhaled condensates. , 2002, American journal of respiratory and critical care medicine.
[8] C. Chao,et al. A study of the dispersion of expiratory aerosols in unidirectional downward and ceiling-return type airflows using a multiphase approach. , 2006, Indoor air.
[9] P V Nielsen,et al. Dispersion of exhaled droplet nuclei in a two-bed hospital ward with three different ventilation systems. , 2006, Indoor air.
[10] C N Haas,et al. Estimation of risk due to low doses of microorganisms: a comparison of alternative methodologies. , 1983, American journal of epidemiology.
[11] M. P. Wan,et al. Dispersion of Expiratory Droplets in a General Hospital Ward with Ceiling Mixing Type Mechanical Ventilation System , 2007 .
[12] C. Chao,et al. Transport characteristics of expiratory droplets and droplet nuclei in indoor environments with different ventilation airflow patterns. , 2007, Journal of biomechanical engineering.
[13] M. M. Jensen. INACTIVATION OF AIRBORNE VIRUSES BY ULTRAVIOLET IRRADIATION. , 1964, Applied microbiology.
[14] J. Duguid,et al. The size and the duration of air-carriage of respiratory droplets and droplet-nuclei , 1946, Epidemiology and Infection.
[15] A. Hubbard,et al. Toward Understanding the Risk of Secondary Airborne Infection: Emission of Respirable Pathogens , 2005, Journal of occupational and environmental hygiene.
[16] William W. Nazaroff,et al. Framework for Evaluating Measures to Control Nosocomial Tuberculosis Transmission , 1998 .
[17] R. Seidler,et al. Survival of bacteria during aerosolization , 1990, Applied and environmental microbiology.
[18] M. H. Wolff,et al. Transmission of viruses via contact in ahousehold setting: experiments using bacteriophage φX174 as a model virus , 2000 .
[19] V. Knight,et al. Human Influenza Resulting from Aerosol Inhalation , 1966, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.
[20] R. Chanock,et al. Temperature-sensitive mutants of influenza virus. 3. Further characterization of the ts-1(E) influenza A recombinant (H3N2) virus in man. , 1973, The Journal of infectious diseases.
[21] M. Nicas,et al. Estimating exposure intensity in an imperfectly mixed room. , 1996, American Industrial Hygiene Association journal.
[22] Tze Wai Wong,et al. Evidence of airborne transmission of the severe acute respiratory syndrome virus. , 2004, The New England journal of medicine.