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Weir, M. H. (2019).  A data simulation method to optimize a mechanistic dose-response model for viral loads of hepatitis A. Microbial Risk Analysis. 100102.
Hornick, R. B., Woodward T. E., McCrumb F. R., Snyder M. J., Dawkins A. T., & Bulkeley J. T. (Submitted).  De la Macorra F and Corozza FA (1966) Study of induced typhoid fever in man. I. Evaluation of vaccine effectiveness. Transactions of the Association of American Physicians. 79, 361.
Heron, M.., Hoyert D.., Murphy S.. L., Xu J.., Kochanek K.. D., & Tejada-Vera B.. (2006).  Deaths: Final Data for National Vital Statistics Reports.. (Statistics, D. of Vital, Ed.).
Rogers, SW. (2011).  Decay of bacterial pathogens, fecal indicators, and real-time quantitative PCR genetic markers in manure-amended soils..
Akinbami, F., Erinoso O., & Akinwolere O. (1995).  Defaecation pattern and intestinal transit in Nigerian children. African Journal of Medicine and Medical Sciences. 24,
Ojielo, C. I., Cooke K., Mancuso P., Standiford T. J., Olkiewicz K. M., Clouthier S., et al. (2003).  Defective Phagocytosis and Clearance of Pseudomonas aeruginosa in the Lung Following Bone Marrow Transplantation. The Journal of Immunology. 171(8), 4416 - 4424.
Ojielo, C. I., Cooke K., Mancuso P., Standiford T. J., Olkiewicz K. M., Clouthier S., et al. (2003).  Defective phagocytosis and clearance of Pseudomonas aeruginosa in the lung following bone marrow transplantation. The Journal of Immunology. 171, 4416–4424.
Salvador, RM. (2011).  Deteccao De Quantificacao de enterovirus em lodo de esgoto proveniente de estacoes de tratamento de esgotos com potencial uso na agrictultura do esado de sao paulo.
Hohne, M., & Schreier E. (2004).  Detection and characterization of norovirus outbreaks in Germany: Application of a one-tube RT-PCR using a fluorogenic real-time detection system. Journal of Medical Virology. 72,
Wang, J., & Deng Z. (2012).   Detection and forecasting of oyster norovirus outbreaks: Recent advances and future perspectives.
Razzolini, MTP., Santos TFS., & Bastos VK. (2010).  Detection of Giardia and Cryptosporidium cysts/oocysts in watersheds and drinking water sources in Brazil urban areas. Journal of Water and Health. 8(2), 
Khan, AA., & Cerniglia CE. (1994).  Detection of Pseudomonas aeruginosa from clinical and environmental samples by amplification of the exotoxin A gene using PCR. Applied and environmental microbiology.
Yang, W., Lindquist H. D., Cama V., Schaefer F. W., Villegas E., Fayer R., et al. (2009).  Detection of Toxoplasma gondii oocysts in water sample concentrates by real-time PCR. Applied and Environmental Microbiology. 75,
Dabritz, H. A., Miller M. A., Atwill E. R., Gardner I. A., Leutenegger C. M., Melli A. C., et al. (2007).  Detection of Toxoplasma gondii-like oocysts in cat feces and estimates of the environmental oocyst burden. Journal of the American Veterinary Medical Association. 231,
Wang, D., & Xu X. (2010).  Detection of Vibrio cholera by O1 and O139 in environmental water samples by an immunofluorescent-aggregation assay.
Atmar, RL., Opekun AR., Gilger MA., Estes MK., Crawford SE., & Neill FH. (2014).  Determination of the 50% Human Infectious Dose for Norwalk Virus. Journal of Infectious Diseases.
Ware, M. W., Augustine S. A., Erisman D. O., See M. J., Wymer L., Hayes S. L., et al. (2010).  Determining UV inactivation of Toxoplasma gondii oocysts by using cell culture and a mouse bioassay. Applied and Environmental Microbiology. 76,
Ware, M. W., Augustine S. A., Erisman D. O., See M. J., Wymer L., Hayes S. L., et al. (2010).  Determining UV inactivation of Toxoplasma gondii oocysts by using cell culture and a mouse bioassay. Applied and Environmental Microbiology. 76,
Haas, C. N., & Thayyar-Madabusi A. (1999).  Development and Validation of Dose-Response Relationship for Listeria monocytogenes. Quantitative Microbiology. 1, 89-102.
Watanabe, T.., Bartrand T.. A., Weir M.. H., Omura T.., & Haas C.. N. (2010).  Development of a Dose-Response Model for SARS Coronavirus. Risk Analysis: An International Journal. 30(7), 1129–1138.
Haas, C.. N., & (2000).  Development of a dose-response relationship for Escherichia coli O157:H7. International Journal of Food Microbiology. 56, 153-159.
Dean, K., Weir M. H., & Mitchell J. (2018).  Development of a dose–response model for Naegleria fowleri. Journal of Water and Health. 17, 63-71.
Weir, M. H., Mitchell J., Flynn W., & Pope J. M. (2017).  Development of a microbial dose response visualization and modelling application for QMRA modelers and educators. Environmental Modelling & Software. 88, 74–83.
Weir, M.. H., Mitchell J.., Flynn W.. B., & Pope J.. M. (2016).  Development of a Microbial Dose Response Visualization and Modelling Application for QMRA Modelers and Educators.
Weir, M. H. (2009).  Development of a Physiologically Based Pathogen Transport and Kinetics Model for the Inhalation of ''Bacillus anthracis'' Spores.