- Summer term
- Environmental Health and Engineering
- 5 credits
- Academic Year:
- 2021 - 2022
- Instruction Method:
- Synchronous Online with Some Asynchronous Online
- Class Times:
- M W F, 1:30 - 3:20pm
College courses in general biology, algebra, and physics or chemistry.
The environment profoundly affects the public's health. The field of environmental health utilizes interdisciplinary strategies to discover, understand and help mitigate adverse effects in populations.
Summarizes the concepts and principles underlying environmental health sciences, characterizes the major environmental agents and vectors affecting public health, and introduces major ecologic, scientific, and political issues from selected topical areas of environmental health. Presents the major concepts and principles that are environmentally mediated and that constitute a risk to humans —emphasizing the chemical, biological, and physical agents and factors. Then, considers sources, environmental pathways of transmission, exposure-dose relationships, adverse health effects, and particularly susceptible populations. Identifies the principles and methods of risk assessment and risk management, and uses these as a unifying theme.
- Learning Objectives:
- Define the major environmental agents (i.e. environmental chemical, biological, and physical agents that cause adverse effects on human health) and their sources
- Discuss the transport and fate of these agents in the environment, and identify the carriers or vectors (air, water, soil, and food) that promote the transfer of these agents from the environment to the human
- Describe the toxicokinetics of these agents in the body, including the effect of route of entry (inhalation, ingestion, absorption)
- Describe the toxicodynamics of these agents, including biotransformation and the mechanisms by which they exert adverse health effects, and the use of models for prediction of the magnitude of adverse effects
- Identify and define the steps in the risk assessment process, including both exposure and dose-response assessment, and the sources and magnitude of uncertainty
- Describe various risk management approaches, including regulatory, engineering, and behavioral/risk communication options
- Describe specific genetic factors (including gender- and ethnicity-related factors), physiologic factors (including age- and health status-related factors), and psychosocial factors (including SES- and social/cultural-related factors) that influence the risk of exposure and/or the likelihood of developing adverse health outcomes from exposure to environmental agents
- Identify techniques for improving risk assessment and risk management strategies, including consideration of: (1) factors in the physical environment, (2) factors in the social environment, (3) community-based participation in both the assessment/management process and in basic environmental/public health research, and (4) issues of environmental justice/equity
- Methods of Assessment:
This course is evaluated as follows:
- 50% Quizzes
- 30% Written Assignment(s)
- 20% Course Participation and Group Report
- Instructor Consent:
No consent required
- Special Comments:
This course is required for MPH students. Optional Q&A and discussion sessions are on Mondays, Wednesdays and Fridays from 3:30-4p.m.