alternatives analysis workshop on life cycle impacts
TRANSCRIPT
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Alternatives Analysis Workshop on Life Cycle Impacts & Exposure Assessment
Dr. Sangwon Suh & Dr. Arturo Keller
Bren School of Environmental Science and Management University of California, Santa Barbara
August, 2018
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OVERVIEW OF EXPOSURE ASSESSMENT CONCEPTS AND TOOLS
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Dr. Arturo Keller (Aug 9th , 1:00pm -2:40pm)
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Outline
3 Overview of human and ecological health RA in relationship
to AA Toxicity assessment Exposure assessment
Source release estimates Fate and transport estimates Exposure routes (ingestion, inhalation, dermal) Outdoor exposure Indoor exposure
Risk characterization Uncertainty considerations Key Points
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AA Simple Diagram4
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What is Risk Assessment?8
Focus here on Toxicity of a Chemical Human and Ecological Health Risk
Risk depends on: Hazard = inherent toxicity of a chemical Exposure
Risk = Hazard * Exposure Risk Characterization: combine the
exposure information with the hazard information to determine the likelihood that an emission could cause harm to nearby individuals and population.
https://www.nap.edu/read/2125/chapter/7/
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Basic Steps in Risk Assessment9
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Basic Steps in Risk Assessment10
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RA Components can be used for AA11
“…the SCP regulations do not require a traditional risk assessment that quantifies hazards and exposures to estimate risk. Instead, the AA uses potential exposure to identify relevant factors and compare alternatives.”
“The regulations do not require a traditional risk assessment, but the responsible entity can use that approach if preferred.”
From AA Guide p63, 100
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RA vs. AA - Differences12
Topic RA AA
Objective Risk characterization and risk management (e.g., minimize exposure)
Comparison of chemical alternatives to reduce hazardand minimize exposure
Aspects to consider
What is the exposure level?
What is risk associatedwith the exposure?
Is this potentially hazardous activity/product necessary?
How can the hazard be reduced or eliminated?
What other options are available?
Activities relationship
Activities typically considered in isolation
Multiple activities compared
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Toxicity Assessment13
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Types of Human Health Hazards14
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Dose-Response Assessment
Objective: quantitative evaluation of toxicity and characterization of the dose-response relationship
Threshold vs. Non-threshold
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Dose-Response Graph16
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Non-Carcinogenic – Reference Dose17
Reference Dose (RfD) daily dose considered safe for population over lifetime mg/kg-bw-day
UF = Uncertainty factor MF = Modifying factor
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UF and MF18
Uncertainty Factor (UF) The factor of 10 is the default value. Use a factor of 10 for extrapolating from valid experiments to prolonged exposure of healthy humans,
accounting for sensitivity. (10H) valid studies on animals (in the absence of valid human studies).
(10A) Than chronic results on animals (sub-chronic). (10S)
Use an additional factor of 10 when the results from animal studies are “incomplete” or “inconclusive” but warrant taking precautions. (10L)
Modifying Factor (MF) Additional uncertainty factor, determined by “professional
judgment” when the uncertainties in the study warrant it. Varies from 0.1 to 10. Default value is 1.
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Toxicity Assessment: Non-carcinogens
Sample calculation of RfD: A study is made with 250 rats that determines that
there is “No Observable Adverse Effect” (NOAEL) at 5 mg/kg-day
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Dose-Response Curve for Carcinogens20
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Toxicity Assessment: Carcinogens
Assume there is no threshold level for carcinogenic effects
Estimate “excess” cancer per unit dose SF - slope factor in units of risk per mg/kg day
Very conservative assumptions
Determined as the increased lifetime risk per unit of dose
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Cancer Risk Calculation
Calculation of risk-specific concentrations in air:22
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Types of Ecological Hazards23
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Types of Ecological Hazards24
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Species Sensitivity Distribution - SSD
Cumulative probability distributions of toxicity values for multiple species
Can estimate potentially affected fraction (PAF) at a given concentration
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Species Sensitivity Distribution26
Source: https://www.epa.gov/caddis-vol4/ssd-plots
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Toxicity Data Sources27
TOXNET (https://toxnet.nlm.nih.gov/)CPDB (https://toxnet.nlm.nih.gov/cpdb/)HSDB (https://toxnet.nlm.nih.gov/newtoxnet/hsdb.htm) IRIS (https://www.epa.gov/iris)ECOTOX (https://cfpub.epa.gov/ecotox/index.html)Published studies
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Dose Matters28
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What is Exposure?
29 Contact between chemical
and human or ecological receptor for a specific time duration
Exposure media Air Water Soil Food
Exposure routes: Inhalation Ingestion Dermal contact
https://www.ablemployment.com/component/zoo/item/first-aid-for-chemical-exposure-are-you-prepared
http://savethehousatonic.org/?page_id=62
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Major Components in Exposure Assessment30
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Life-Cycle Releases31
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Estimating Release
Manufacturing Product use
Direct to consumer To surroundings
Disposal methods Wastewater Incineration landfill
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Chemical Product – Industrial Use33
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Chemical Product – Consumer Use34
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Important Physicochemical Parameters
Important Physicochemical Parameters for chemical Release Volatility Water solubility Octanol/Water
partitioning (Kow, Kp) Predicts bioaccumulation
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Releases Estimation Approach36
Bottom-up Approach Based on specific consumer product type and use
patterns Need to know use or application rates Need to calculate release to different compartments in
different life-cycle stages
Top-down Approach Based on functional uses product categories generic release factors
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Bottom-up Approach
Based on product use information
Volatilization – based on vapor pressure
Dissolution in water –based on solubility
Likelihood of spill Non-intended uses or
releases?
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Examples38
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Top-down Release Estimation39
Tao, M., Li, D., Song, R., Suh, S., & Keller, A. A. (2018). OrganoRelease–A framework for modeling the release of organic chemicals from the use and
post-use of consumer products. Environmental Pollution, 234, 751-761
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Chemical Functional-Use Classes
Antimicrobials Chelating Agents Colorants Defoamers Emollients Enzymes and Enzyme
Stabilizers Fragrances
Oxidants and Oxidant stabilizers
Polymers Preservatives and Antioxidants Processing aids and Additives Skin conditioning agents Solvents Specialized industrial chemicals Surfactants
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https://www.epa.gov/saferchoice/safer-ingredients#searchList
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Solvents in Consumer Products41
US EPA Exposure Factors Handbook, 201141
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Solvents in Consumer Products42
US EPA Exposure Factors Handbook, 201142
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Sources of Release Factors43
European Union Technical Guidance Documents (EU TGD)
European Union specific environmental release categories (SPERCs)
CHESAR (CHEmical Safety Assessment and Reporting Tool)
ECETOC TRA (European Center for Ecotoxicology and Toxicology of Chemicals Targeted Risk Assessment)
Easy TRA (EASY Targeted Risk Assessment) CLiCC OrganoRelease
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Example: Release Estimate
Generally used as a solvent in paints Also used as a solvent in other applications Solubility of 8.3 g/L in water Vapor pressure of 47 mm Hg at 25 C
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Release Estimate45
Tao, M., Li, D., Song, R., Suh, S., & Keller, A. A. (2018). OrganoRelease–A framework for modeling the release of organic chemicals from the use and post-
use of consumer products. Environmental Pollution, 234, 751-761
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Scaling Release46
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Different Release Scenarios47
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Life-Cycle Releases48
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Wastewater Treatment Processes49
Outputs:- Emissions to air- Effluent to freshwater, marine- Sludge to biosolids (agriculture?) and landfill
http://css.umich.edu/factsheets/us-wastewater-treatment-factsheet
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Waste Incineration Processes50
Outputs:- Emission to air (gases and particulate matter, PM)- Ashes to landfill or embedded in products
http://www.hitachi-infra.com.sg/services/energy/dustcollection/case/industrial_incinerator.html
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Landfill Process51
Outputs:- Emissions to air? - Emissions to groundwater?
http://greensciencepolicy.org/design-and-operation-of-landfills/
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Major Components in Exposure Assessment
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Transport & Fate53
Objective Predict concentrations at receptors Human Ecological
For all relevant pathways Air (indoor & outdoor)Water (drinking, swimming, habitat) Soils (cropland, recreational, habitat)
Determine residence times in different environmental compartments persistence
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https://www.epa.gov/fera/multimedia-fate-and-transport-modeling-overview54
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Consumer Product Fate55
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https://www.slideshare.net/vibhurathore9/environmental-alteration-of-pesticides
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Indoor Air Fate56
56http://jtd.amegroups.com/article/view/3709/html
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Transport Processes
Advection (convection) Carried along with currents
Diffusion & Dispersion Spread out via mechanical
mixing or molecular interactions Sorption & Retardation
Slowing down due to attachment to a solid surface
Sedimentation & Resuspension of particles Contaminants may be
adsorbed to particles
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Fate Processes58
Biodegradation Mostly microbes and fungi doing the work Aerobic (requires oxygen) Anaerobic (e.g. deep soils, river and lake sediments)
Chemical Transformations Atmospheric oxidation Photolysis (directly by light source) Hydrolysis (only in water) Aqueous oxidation or reduction
Bioaccumulation Transfer up the food chain
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Biomagnification
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Different Types of F&T Models60
Media specific modelsAirRiverGroundwater
Multi-media modelsBox models
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Air Quality Model Example
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Air Quality Model Example
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Multi-media Models66
SimpleBox (RIVM) used in USETox, EUSES, CHESAR https://www.rivm.nl/en/Topics/S/Soil_and_water/Simple
Box EQC (Equilibrium Criteria Model – Level I, II, III)
http://www.trentu.ca/academic/aminss/envmodel/models/NewEQCv100.html
BETR Global (UC Berkeley) https://sites.google.com/site/betrglobal/home
CLiCC (Chemical Life Cycle Collaborative) https://clicc.net/
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Model Framework67
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Mathematical Model
Concentration = Release + Transfers in – Transfers out68
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Conceptual Design69
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Fate and Transport Modeling70
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Regional Characteristics71
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Local Climatic Conditions72
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Model Diagram73
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Sample Output74
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Major Components in Exposure Assessment75
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Potential Exposures During the Life Cycle76
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Exposure77
https://www.epa.gov/expobox/exposure-assessment-tools-approaches-indirect-estimation-scenario-evaluation
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Conceptual Model - Exposure78
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Outdoor Exposure
Far-field E.g., Pesticides Inhalation, ingestion (water, produce, meat, fish, etc)
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Indoor Exposure
Near-field Dominant source of human exposure highly dependent on chemical properties product characteristics usage conditions user behavior
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Exposure Calculations81
Inhalation Inhalation rate * concentration * exposure duration
Ingestion Ingestion rate * concentration in food/drink * exposure
duration Concentration in food/drink requires additional
calculations Dermal absorption
Permeability * amount of contact * exposure duration Internal organ specific
Adsorption, distribution, metabolism, excretion
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Exposure Calculations82 Calculation of Intake through Inhalation:
𝐼𝐼𝑁𝑁𝐼𝐼 =𝐶𝐶𝑎𝑎 × 𝐼𝐼𝑅𝑅 × 𝑅𝑅𝑅𝑅 × 𝑁𝑁𝐴𝐴𝐴𝐴 × 𝑁𝑁𝐸𝐸 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸INH = inhalation dose (mg/kg day)Ca = concentration in air (mg/m3)IR = inhalation rate (m3/hr)RR = retention rate of inhaled air (%)ABS = percent absorbed into bloodET = exposure time (hr/day)EF = exposure frequency (days/year)ED = exposure duration (years)BW = body weight (kg)AT = averaging period, i.e. period over which exposure is averaged:
• for noncarcinogens use ED x 365 days/yr• for carcinogens use 70 yr x 365 days/yr
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Exposure Factors83
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Exposure Assessment84
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Calculation of Intake through Ingestion of contaminated drinking water:
𝐼𝐼𝑁𝑁𝐼𝐼 =𝐶𝐶𝐵𝐵 × 𝐼𝐼𝑅𝑅 × 𝑈𝑈𝐼𝐼 × 𝑁𝑁𝐴𝐴𝐴𝐴 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸ING = ingestion dose (mg/kg-day)Cw = concentration in water (mg/L)IR = average water ingestion rate (L/day)FI = fraction ingested from contaminated source
• Calculation of Intake through Ingestion during recreational activities:
𝐼𝐼𝑁𝑁𝐼𝐼 =𝐶𝐶𝐵𝐵 × 𝐶𝐶𝑅𝑅 × 𝑁𝑁𝐴𝐴𝐴𝐴 × 𝑁𝑁𝐸𝐸 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸CR = contact rate (L/hr)
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Exposure Assessment85
Calculation of Intake through Ingestion of contaminated seafood:
𝐼𝐼𝑁𝑁𝐼𝐼 =𝐶𝐶𝐵𝐵 × 𝑈𝑈𝐼𝐼𝑅𝑅 × 𝐴𝐴𝐶𝐶𝑈𝑈 × 𝑈𝑈𝐼𝐼 × 𝑁𝑁𝐴𝐴𝐴𝐴 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸
FIR = average fish ingestion rate (kg/day)FI = fraction ingested from contaminated sourceBCF = bioconcentration factor
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Exposure Assessment86
Calculation of dermal exposure through soil contact:
𝑅𝑅𝑁𝑁𝐷𝐷 =𝐶𝐶𝑠𝑠 × 𝐶𝐶𝑈𝑈 × 𝐴𝐴𝑁𝑁 × 𝑁𝑁𝑈𝑈 × 𝐴𝐴𝑀𝑀 × 𝑁𝑁𝐴𝐴𝐴𝐴 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸
DEX = dermal exposure dose (mg/kg day)Cs = soil concentration (mg/kg)CF = conversion factor = 10-6 kg/mgSA = skin surface area available (cm2/event)AF = soil to skin adherence factor (mg/cm2)SM = factor for soil matrix effects (%)
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Exposure Assessment
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Calculation of dermal exposure from personal care products:
𝑁𝑁𝑅𝑅𝑅𝑅𝑎𝑎𝑎𝑎𝑠𝑠 =𝑅𝑅𝑁𝑁𝑒𝑒𝑒𝑒𝑒𝑒𝑒𝑒𝑒𝑒 × 𝐴𝐴𝑁𝑁 × 𝑁𝑁𝑈𝑈 × 𝑁𝑁𝑅𝑅
𝐴𝐴𝐵𝐵 × 𝑁𝑁𝐸𝐸ADDabs = Average daily dose (mg/kg-day)DAevent = Absorbed dose (mg/cm2-event)SA = Skin surface area available for contact (cm2)EF = Exposure frequency (events/year)ED = Exposure duration (years)BW = Body weight (kg)AT = Averaging time (days)
https://www.epa.gov/expobox/exposure-assessment-tools-routes-dermal
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Exposure Assessment88
Adsorbed dose:
DAevent = Kp x C x tKp = Permeability coefficient (cm/hr)C = Concentration of chemical in vehicle contacting skin (mg/cm3)t = Time of contact (hours/event)
https://www.epa.gov/expobox/exposure-assessment-tools-routes-dermal
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Exposure Factors
Water ingestion rate ~ 2 L/day Food ingestion rate
Depends on Food type Preparation Frequency of consumption
Dermal exposure rate Product specific
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http://www.tlc.com/tlcme/eating-fish-may-make-kids-smarter-and-help-them-sleep-better-at-night/
https://www.youtube.com/watch?v=72Jcvsk3A-g
https://www.allure.com/story/when-to-apply-sunscreen-before-or-after-moisturizer
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Sources of Exposure Data90
Empirical, measured, or modeled estimates USEPA EXPOBOX
https://www.epa.gov/expobox/about-exposure-factors-handbook
Exposure based on measured data has less uncertainty than estimates based on indirect information, such as modeling or estimation
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Solvents in Consumer Products91
91US EPA Exposure Factors Handbook, 2011
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Solvents in Consumer Products92
92US EPA Exposure Factors Handbook, 2011
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Example of Exposure Factors93
93US EPA Exposure Factors Handbook, 2011
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Sample Results: Human Intake94
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Exposure Levels96
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Tiered Approach to Exposure Assessment97
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Exposure Assessment Tools98
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Data needed for Exposure Models99
Exposure environment (e.g., residential building) Physicochemical properties (e.g., vapor pressure,
Kow, water solubility) Chemical concentrations
in a medium (e.g., air, water) at an exposure point (e.g., VOC in the breathing zone)
Exposure factors (e.g., drinking water consumption, inhalation rate)
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Exposure models100
Sources for necessary parameter values Actual measurements Fate and transport models QSAR models (EPI Suite) Chemical properties
EPA Exposure Handbook (EXPOBOX) Survey data Industrial Guides MSDS Literature
Careful with units!
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Risk Characterization101
Is there a human or ecological health risk? Which populations? Which exposure routes? Which activities?
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Example: Human Risk
Cancer Risk Lifetime (70 yr) intake
compared to cancer slope factor
Non-Cancer Risk Accumulated (10 yr)
intake compared to Rfd (reference dose)
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Ecological Risk
Predicted concentrations from fate and transport model compared with toxicity thresholds NOEC, LOEC, LC50, EC50, etc.
Risk determined by frequency of lowest threshold exceeded annually
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Sample Results – Ecological Risk104
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Risk management105
Determine actions to reduce riskImmediate (if risk is very high)Restrict access to siteRecall product
Longer-termDevelop alternativesPersonal protective equipment Inform consumer and control dose
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Uncertainty & Risk Assessment
106
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Key Points107
Exposure and risk assessment can be used to support alternatives analysis.
Toxicity assessment From existing databases
Exposure assessment Release calculations Concentrations & dose Measured From fate & transport models
Exposure factors Risk characterization
Consider likely exposure scenarios