Community Health & Epidemiology FACULTY CANDIDATE
Transcription
Community Health & Epidemiology FACULTY CANDIDATE
Community Health & Epidemiology FACULTY CANDIDATE PRESENTATION Assessing Toxic Organic Contaminants of Emerging Concerns Using Cost-Effective Monitoring and Modeling Approaches 2:30 PM Thursday May 14th Theatre C, Tupper Link 5850 College Street Xianming Zhang PhD Development within the chemical industry over the past half century has lead to rapid increases in the quantity of chemical substances on the market. Of ~100 million substances registered in the Chemical Abstract Services (CAS), over 30 000 substances are commercially produced in quantities of over 1 t/y globally. Environmental monitoring, human exposure and adverse health impact assessments via biomonitoring are expensive and currently limited to only a few hundred of these chemicals. In order to address potential human exposure and adverse health effects for such a large number of chemicals in commerce, in silico approaches are needed to rapidly screen and prioritize these chemical substances for further in-depth toxicity testing and exposure assessments. Previous models for exposure and hazard screening primarily focus on chemicals released to the outdoor environment and human exposure from outdoor environmental media (food, water, air). However, increasing evidence has indicated significant human exposure to chemicals could occur indoors and thus near-field exposure pathways (e.g. inhalation, non-dietary ingestion, dermal permeation) need to be considered when estimating total exposure. In this presentation, I will introduce a quantitative model that links indoor chemical fate processes and human exposure. I will highlight how chemical properties determine the relative importance of indoor exposure via dermal permeation, inhalation, and non-dietary ingestion and how interactions between occupants and the indoor environment affect chemical fate and human exposure indoors. With a case study on 40 organic chemicals commonly present indoors, I will demonstrate how the modeled indoor intake fractions and steady-state concentrations in humans can be used to identify chemicals with assessment and regulatory priorities. with emerging concerns and regulatory priority. Xianming Zhang PhD Con’t. Dr. Xianming Zhang obtained his PhD (2012) in environmental chemistry and M.Sc. (2008) in environmental studies from the University of Toronto. During his master’s study, Dr. Zhang’s research focused on flame-retardants and polychlorinated biphenyls (PCBs) in indoor environments. Through a sampling campaign, he identified predominant sources of flame-retardants in the studied indoor locations and developed a mass balance model to quantify indoor emissions and fate of the chemicals. During his PhD, Dr. Zhang conducted an in-depth investigation on passive air sampling techniques for monitoring semi-volatile organic chemicals. Using laboratory controlled experiments, mathematical modelling and field sampling campaigns, Dr. Zhang elucidated and quantified factors (chemical properties and environmental conditions) that govern chemical uptake and passive sampling rates and established a passive sampling and instrumental analysis method for monitoring oganosiloxanes, a group of contaminants with emerging concerns. After his PhD, Dr. Zhang worked as a sessional lecturer (2012) at the University of Toronto Scarborough and taught a course on modelling organic contaminants. Meanwhile, he received funding to develop a human exposure module in the indoor chemical fate model he previously developed and applied the model to screen human exposures and risks for a large number of indoor toxic organic chemicals. Since September 2013, Dr. Zhang received an NSERC fellowship and has been working as a postdoc at the Harvard School of Public Health and the School of Engineering and Applied Sciences at Harvard University. Currently, Dr. Zhang uses integrated monitoring and modelling approaches and aims to establish a quantitative link between environmental releases of perfluorooctane sulfanate (PFOS) and immunotoxic effects on human populations. In addition to the primary research projects, Dr. Zhang also worked on a few collaborative projects with researchers at Canadian government labs and other international institutes to address broader questions on environmental contaminants and human exposure. Details on our website dal.ca/community-health