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Table of Contents
Part I: Estimating and Simulating Dynamic Health Risks
Chapter 1: Scientific Method for Health Risk Analysis: The Example of Fine Particulate Matter Air Pollution and COVID-19 Mortality Risk
Chapter 2: Modeling Nonlinear Dose-Response Functions: Regression, Simulation, and Causal Bayesian Networks
Chapter 3: Simulating Exposure-Related Health Effects: Basic Ideas
Chapter 4: Case Study: Occupational Health Risks from Crystalline Silica
Chapter 5: Case Study: Health Risks from Asbestos Exposures
Chapter 6: Nonlinear Dose-Time-Response Risk Models for Protecting Worker Health
Part 2: Statistics, Causality, and Machine Learning for Health Risk Assessment
Chapter 7: Why Not Replace Quantitative Risk Assessment Models with Regression Models
Chapter 8: Causal vs. Spurious Spatial Exposure-Response Associations in Health Risk Analysis
Chapter 9: Methods of Causal Analysis for Health Risk Assessment
Chapter 10: Clarifying Exposure-Response Regression Coefficients with Bayesian Networks: Blood Lead-Mortality Associations an Example
Chapter 11: Case Study: Does Molybdenum Decrease Testosterone
Chapter 12: Case Study: Are Low Concentrations of Benzene Disproportionately Dangerous
Part III: Public Health Effects Of Fine Particulate Matter Air Pollution
Chapter 13: Socioeconomic Correlates of Air Pollution and Heart Disease
Chapter 14: How Realistic are Estimates of Health Benefits from Air Pollution Control
Chapter 15: Do Causal Exposure Concentration-Response Relations
Chapter 16: How Do Exposure Estimation Errors Affect Estimated Exposure-Response Relations
Chapter 17: Have Decreases in Air Pollution Reduced Mortality Risks in the United States
Chapter 18: Improving Causal Determination
Chapter 19: Communicating More Clearly about Deaths Caused by Air Pollution.
Chapter 1: Scientific Method for Health Risk Analysis: The Example of Fine Particulate Matter Air Pollution and COVID-19 Mortality Risk
Chapter 2: Modeling Nonlinear Dose-Response Functions: Regression, Simulation, and Causal Bayesian Networks
Chapter 3: Simulating Exposure-Related Health Effects: Basic Ideas
Chapter 4: Case Study: Occupational Health Risks from Crystalline Silica
Chapter 5: Case Study: Health Risks from Asbestos Exposures
Chapter 6: Nonlinear Dose-Time-Response Risk Models for Protecting Worker Health
Part 2: Statistics, Causality, and Machine Learning for Health Risk Assessment
Chapter 7: Why Not Replace Quantitative Risk Assessment Models with Regression Models
Chapter 8: Causal vs. Spurious Spatial Exposure-Response Associations in Health Risk Analysis
Chapter 9: Methods of Causal Analysis for Health Risk Assessment
Chapter 10: Clarifying Exposure-Response Regression Coefficients with Bayesian Networks: Blood Lead-Mortality Associations an Example
Chapter 11: Case Study: Does Molybdenum Decrease Testosterone
Chapter 12: Case Study: Are Low Concentrations of Benzene Disproportionately Dangerous
Part III: Public Health Effects Of Fine Particulate Matter Air Pollution
Chapter 13: Socioeconomic Correlates of Air Pollution and Heart Disease
Chapter 14: How Realistic are Estimates of Health Benefits from Air Pollution Control
Chapter 15: Do Causal Exposure Concentration-Response Relations
Chapter 16: How Do Exposure Estimation Errors Affect Estimated Exposure-Response Relations
Chapter 17: Have Decreases in Air Pollution Reduced Mortality Risks in the United States
Chapter 18: Improving Causal Determination
Chapter 19: Communicating More Clearly about Deaths Caused by Air Pollution.