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EPA SCIENTIFIC ADVISORY COMMITTEE ON CHEMICALS
CHARGE TO THE PANEL - ASBESTOS
As amended by the Frank R. Lautenberg Chemical Safety for the 21st Century Act on June 22,
2016, the Toxic Substances Control Act (TSCA), requires the U.S. Environmental Protection
Agency (EPA) to conduct risk evaluations on existing chemicals. In December of 2016, EPA
published a list of the initial ten chemical substances that are the subject of the Agency's chemical
risk evaluation process (81 FR 919271 as required by TSCA. Asbestos is one of the first ten
chemical substances and the ninth of the ten to undergo a peer review by the Science Advisory
Committee on Chemicals (SACC). In response to this requirement, EPA has prepared and
published a draft risk evaluation for Asbestos. The EPA has solicited comments from the public
on the draft and will incorporate them as appropriate, along with comments from peer reviewers,
into the final risk evaluation.
The focus of this meeting is to conduct the peer review of the Agency's draft risk evaluation of
asbestos and associated supplemental materials. At the end of the peer review process, EPA will
use the reviewers' comments/recommendations, as well as public comment, to finalize the risk
evaluation.
This draft risk evaluation contains the following components:
• Discussion of chemistry and physical-chemical properties
• Characterization of uses/sources
• Detailed description of the systematic review process developed by the Office of
Pollution Prevention and Toxics to search, screen, and evaluate scientific literature for use
in the risk evaluation process.
• Environmental fate and transport assessment
• Environmental exposure assessment
• Human health hazard assessment
• Environmental hazard assessment
• Risk characterization
• Risk determination
CHARGE QUESTIONS:
Systematic Review (Section 1.5 of the Draft Risk Evaluation):
The Toxic Substances Control Act (TSCA) requires that EPA use data and/or information in a
manner consistent with the "best available science" and that EPA base decisions on the "weight of
the scientific evidence". The EPA's Final Rule, Procedures for Chemical Risk Evaluation Under
the Amended Toxic Substances Control Act (82 FR 33726). defines "best available science" as
science that is reliable and unbiased. This involves the use of supporting studies conducted in
accordance with sound and objective science practices, including, when available, peer reviewed
science and supporting studies and data collected by accepted methods or best available methods
(if the reliability of the method and the nature of the decision justifies use of the data). The Final
Rule also defines the "weight of the scientific evidence" as a systematic review method, applied in
a manner suited to the nature of the evidence or decision, that uses a pre-established protocol to
comprehensively, objectively, transparently, and consistently identify and evaluate each stream of
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evidence, including the strengths, limitations, and relevance of each study and to integrate evidence
as necessary and appropriate based upon strengths, limitations, and relevance.
To meet these scientific standards, EPA applied systematic review approaches and methods to
support the asbestos draft risk evaluation. Information on the approaches and/or methods is
described in the draft risk evaluation as well as the following documents:
• Strategy for Conducting Literature Searches for Asbestos: Supplemental File for the TSCA
Scope Document, (EPA-HQ-QPPT-2016-0736-0083)
• Asbestos (CASRN 1332-31-4) Bibliography: Supplemental File for the TSCA Scope Document,
(EP A-HO-OPPT-2016-073 6-0084)
• Asbestos Problem Formulation (EPA-HQ-QPPT-2016-0736-0131)
• Application of Systematic Review in TSCA Risk Evaluations (EPA-HQ-QPPT-2016-0736-0132)
EPA has solicited peer review and public feedback on systematic review approaches and methods
for prior evaluations. A general question on these approaches is not included in this charge;
however, EPA will accept comment on the systematic review approaches used for this evaluation if
provided.
1. Environmental Exposure and Release
Based on the reasonably available information in the published literature, provided by industries
using asbestos, and reported in EPA databases, there is minimal or no releases of asbestos to
surface water associated with the conditions of use (COUs) that EPA is evaluating in this risk
evaluation.
1.1 Please comment on whether the information presented supports the analysis and conclusion in
the draft environmental exposure section (Section 2.2 and Appendix D).
2. Occupational Exposure (Section 2.3.1)
Workers and occupational non-users may be exposed to commercial chrysotile asbestos when
workers perform activities associated with several COUs:
• Asbestos diaphragms used in the chlor-alkali industry
• Asbestos-containing sheet gaskets (both stamping and use)
• Oil field brake blocks
• Aftermarket automotive brakes and linings
• Other vehicle friction products
• Other gaskets (Utility vehicles)
EPA evaluated what is known about chronic exposures to workers and occupational nonusers
(ONUs) for the COUs listed above via the inhalation pathway only. The principle approach EPA
used to estimate occupational exposures - for both workers and ONUs - was reviewing and
interpreting monitoring data, whether provided by industry or documented in the peer-reviewed
literature. EPA assumed that workers and occupational non-users would be adolescents and adults
of both sexes (>16 and older).
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2.1 Please comment on the estimation methods and assumptions used for occupational
exposure assessment (including ONUs) in terms of concentration, frequency and duration
of exposures; and their use in the risk evaluation. Below are two specific issues in which
EPA is particularly interested in feedback from the SACC
Incorporation of Short-Term Occupational Monitoring Results
EPA received from industry (or obtained from the published literature short-term (i.e., less
than a full 8-hour work shift) monitoring data for several of the COUs (chlor-alkali, sheet
gaskets/stamping, aftermarket automotive parts, and other vehicle friction products). For
these COUs, EPA calculated a separate "full-shift" asbestos exposure estimates as well as
a short-term exposure estimate to account for these occasional, short, high-exposure
scenarios. Please comment on the method used.
ONI I Exposure Estimates
Based on the readily available information, EPA used different methods to estimate ONU
exposures. ONU estimates were made for each COU; however, the limited information did
not allow the development of ONU exposures for short-term exposure scenarios for chlor-
alkali, sheet gasket use, oil field brake blocks, or other gaskets/UTVs. Please comment on
the method(s) used (identified below).
• Chlor-alkali (Section 2.3.1.3.5): For ONU exposure estimates area samples were
used. Two chlor-alkali facilities provided a total of 15 area samples which were all
below the limit of detection (LOD). There were two different detection limits in the
two submissions. Although true exposure values below any limit of detection may
be unevenly distributed from zero to the limit of detection, we assumed that the
central tendency exposure concentration estimate is based on one-half of the
detection limit for individual samples and the high-end concentration is based on
the highest detection limit across the samples.
• Sheet Gasket Stamping and use (Sections 2.3.1.4.5 and 2.3.1.5.5): EPA did not
identify any ONU exposure measurements for these COUs. However, the literature
includes "bystander" exposure studies. Specifically, one publication (Mangold,
2006) measured "bystander" exposure during asbestos-containing gasket removal.
The "bystander" locations in this study were between 5 and 10 feet from the gasket
removal activity, and asbestos concentrations were between 2.5 and 9 times lower
than those measured for the worker. Based on these observations, EPA assumes
that ONU exposures for these COUs are a factor of 5.75 (i.e., the midpoint between
2.5 and 9) lower than the directly exposed workers.
• Oilfield brake blocks (Section 2.3.1.6.5): EPA has not identified specific data on
potential ONU inhalation exposures from brake block use. It is assumed that ONUs
do not directly handle brake block and drawworks machineries and that this
equipment is always used and serviced outdoors close to oil wells. Given the
limited information identified in Section 2.3.1.6.4 (i.e., worker monitored values),
the lower of the two reported values was used to represent ONU exposures for this
COU.
• Aftermarket automotive brakes (Section 2.3.1.7.5): EPA has not identified data on
potential ONU inhalation exposures from after-market auto brake scenarios. ONUs
do not directly handle brakes and the ONU exposure estimates in Table 2-15 were
generated by assuming that asbestos concentrations decreased by a factor of 8.4
between the worker location and the ONU location. EPA derived this reduction
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factor from a publication (Madl, 2008) that had concurrent worker and bystander
exposure measurements where the bystander was approximately 5 feet from the
worker. The value of 8.4 is the average concentration reduction across four
concurrent sampling events.
• Other gaskets/UTYs (Section 2.3.1.9.4): Paustenbach (2006) includes area
sampling results that EPA thought appropriate for ONU exposures. These samples
were collected at breathing zone height at locations near the ends of the muffler
shop bays where the exhaust system work was performed. The area sample
durations ranged from 25 to 80 minutes, and these samples were collected during
exhaust system work. Overall, 21 area samples from these locations were analyzed
by PCM; and 16 of these samples were non-detects for asbestos. Among the PCM
data from this subset of area samples, the authors report that the average asbestos
concentration was 0.005 fibers/cc and the maximum asbestos concentration was
0.015 fibers/cc. The study authors did not report 8-hour TWA concentrations for
the area sample locations. EPA used these average and maximum asbestos
concentrations to estimate potential ONU exposures.
2.2 Please comment on EPA's reasonableness of these assumptions, the uncertainties they
introduce, and the resulting confidence in the occupational exposure estimates (Section 4.3.3).
2.3 Please provide specific suggestions or recommendations for alternative approaches,
estimation methods, or information sources that EPA should consider for improving the
occupational exposure assessment.
3. Consumer Exposure (Section 2.3.2)
Consumers (Do-it-Yourselfers, or DIY, or DIY mechanics) and bystanders may be exposed to
commercial chrysotile asbestos when consumers perform activities associated with several COUs:
• Aftermarket automotive brakes and linings
• Other Gaskets (Utility vehicles - UTVs)
3.1 Please comment on the estimation methods and assumptions used for consumer/DIY
exposure assessment (including bystanders) in terms of concentration, frequency and duration
of exposures; and their use in the risk evaluation. Please include your thoughts on the
reasonableness of the estimated age at start of exposure and duration and frequency of exposure
for the consumer (DIY and bystander) (Section 4.2.3).
3.2 Please comment on EPA's approach to developing consumer/DIY exposure estimates for
aftermarket automotive brakes/linings (Section 2.3.2.1). Please include your thoughts on the
reasonableness of the estimated age at start of exposure and duration and frequency of exposure
for the consumer (DIY and bystander) (Section 4.2.3).
3.3 Please comment on EPA's approach to developing bystander exposure estimates
(specifically the use of reduction factors [RFs] (Sections 2.3.2.1 and 2.3.2.2).
3.4 Please comment on EPA's approach to develop consumer/DIY exposure estimates for other
gaskets (UTVs) (Section 2.3.2.2).
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3.5. Please comment on EPA's reasonableness of the assumptions used, the uncertainties they
introduce, and the resulting confidence in the consumer exposure estimates (Section 4.3.4).
3.6 Please comment on the methods and assumptions used in approaches for the sensitivity
analysis for the consumer (DIY and bystander) risk estimates for both aftermarket
automotive brakes and UTV gaskets (Appendix L).
3.7 Please provide any specific suggestions or recommendations for alternative approaches,
estimation methods, assumptions, or information that should be considered by the Agency for
improving the consumer exposure assessment.
4. Human Health Hazard/Derivation of the Inhalation Unit Risk (IUR)
EPA derived the chrysotile-based inhalation unit risk (IUR) based on a review of the
epidemiology literature describing occupational cohorts exposed to commercial chrysotile that
provided adequate data for assessment of lung cancer and mesothelioma risks. Cancer potency
values were either extracted from published epidemiology studies or derived from the data
within those studies. Once the cancer potency values were obtained, they were adjusted for
differences in air volumes between workers and other populations so that those values can be
applied to the U.S. population as a whole in the standard EPA life-table analyses. The life-table
methodology allows the estimation of an exposure concentration association associated with a
specific extra risk of cancer mortality caused by commercial chrysotile asbestos. According to
standard practice, the lifetime unit risks for lung cancer and mesothelioma were estimated
separately and then statistically combined to yield the cancer inhalation unit risk.
Uess-than-lifetime or partial lifetime unit risks were also derived for a range of exposure scenarios
based on different ages of first exposure and durations of exposure.
4.1 Please comment on EPA's choice of focusing modeling on only lung cancer and
mesothelioma.
4.2. Please comment on the appropriateness of the approach to derive the commercial
chrysotile-based IURs, including the underlying assumptions, strengths and weaknesses
of the choice of study cohorts used, the key calculation decisions and the modelling used
to derive the IUR (Section 3.2.4).
4.3. Please comment on EPA's approach to characterizing the implications of the assumptions
and uncertainties for the confidence associated with the derivation of the IURs (Section
4.3.5).
4.4. Please provide any specific suggestions or recommendations for alternative approaches
that should be considered by the Agency in deriving the commercial chrysotile-based
IUR.
5. Human Health Risk Characterization
EPA posited that there were minimal or no releases of asbestos to surface water associated with the
conditions of use (COUs) evaluated in this risk evaluation and thus concluded there is no risk to
aquatic or sediment-dwelling organisms (Section 4.1).
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As discussed above, EPA calculated the potential for extra cancer risk via inhalation exposures for
occupational (workers and ONUs) and consumers (DIYers and bystanders) for cancer effects. The
risk characterization provides a discussion of the uncertainties surrounding the risk calculations.
On the basis of the estimated exposure and risks, EPA concluded that inhalation of chrysotile
asbestos presents an unreasonable risk of injury to workers (and ONUs) and consumers (and
bystanders) (See Section 4.2.). EPA also concludes that asbestos does not present an unreasonable
risk to environmental receptors exposed via surface water (see Section 4.1). EPA makes this
determination considering risk to potentially exposed and susceptible subpopulations identified as
relevant, under the conditions of use without considering costs or other non-risk factors.
5.1. Please comment on whether the analysis presented supports the conclusions outlined in the
draft risk characterization section concerning asbestos. If not, please explain the limitations
of these conclusions, and whether there are alternative approaches or information that
could be used to further develop the risk estimates within the context of the requirements
stated in EPA's Final Rule, Procedures for Chemical Risk Evaluation Under the Amended
Toxic Substances Control Act (82 FR 33726) (Section 4).
5.2 EPA presented overall human health risk conclusions (Section 4.6.2) based on risk
estimates for cancer. Please comment on EPA's approach including any alternative
considerations for determining and presenting risk conclusions including the risk summary
tables (Table 4-57 and 4-58).
5.3 Please comment on the clarity and validity of specific confidence summaries presented in
Section 4.3.
5.4. Throughout this charge we have asked reviewers to comment on the uncertainties and data
limitations associated with the methodologies used to assess the environmental and human
health risks. Please comment on whether that information has been carried forward to the
characterization of the risk evaluation such that the strength of the unreasonable risk
conclusions is characterized in a clear and transparent manner (Section 4.3).
5.5 Please comment on any other aspect of the environmental or human health risk
characterization that has not been mentioned above (Section 4).
6. Additional Questions:
The Frank R. Lautenberg Chemical Safety for the 21st Century Act (2016) (amended TSCA) states
that "potentially exposed or susceptible subpopulations" (PESS) be considered in the risk
evaluation process. PESS is defined in the Lautenberg Act to include populations with greater
exposure or greater response, including due to lifestyle, dietary, and biological susceptibility
factors, than the general population.
6.1. Has a thorough and transparent review of the available information been conducted that
has led to the identification and characterization of all PESS (Sections 2.3.3, 3.2.5., and
4.4.1)? Do you know of additional information about PESS that EPA needs to consider?
Additionally, has the uncertainty around PESS been adequately characterized?
The EPA risk characterization of human health risk from inhalation exposure to workers includes
estimates of risk for respirator use. EPA was supplied information on respirator use from some
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industry representatives. EPA estimated cancer risks based on no use of respirators and with
respirators by the respirator assigned protection factors (APFs) of 10 and 25. EPA did not assume
occupational non users (ONUs) or consumers used personal protective equipment in the risk
estimation process.
6.2. Please comment on whether EPA has adequately, clearly, and appropriately presented the
reasoning, approach, assumptions, and uncertainties for characterizing risk to workers
using PPE (exposure - Sections 2.3.1.2.; risk Section 4.2.1 and Tables 4-3 and 4-38).
6.3 Please comment on whether EPA has adequately, clearly, and appropriately presented the
reasoning, approach, assumptions, and uncertainties for characterizing risk to ONUs who
would not be expected to use PPE (Sections 4.2.1 and 4.3.7).
7. Overall Content and Organization
EPA's Final Rule, Procedures for Chemical Risk Evaluation Under the Amended Toxic Substances
Control Act (82 FR 33726) stipulates the process by which EPA is to complete risk evaluations
under the Frank R. Lautenberg Chemical Safety for the 21st Century Act.
As part of this draft risk evaluation for asbestos, EPA evaluated potential environmental,
occupational and consumer exposures. The evaluation considered reasonably available information,
including manufacture, use, and release information, and physical-chemical characteristics. It is
important that the information presented in the risk evaluation and accompanying documents is
clear and concise and describes the process in a scientifically credible manner.
To increase the quality and credibility of scientific information disseminated by EPA, EPA uses the
peer review process specifically as a tool for determining fitness of scientific information for the
intended purpose. The questions below are intended to guide the peer reviewers toward
determining if EPA collected, used and disseminated information that is 'fit for purpose' based on
utility (the data's utility for its intended users and for its intended purpose), integrity (the data's
security), and objectivity (whether the disseminated information is accurate, reliable, and unbiased
as a matter of presentation and substance). The peer reviewers' critical focus should pertain to
recommendations of the technical information's usefulness for intended users and the public.
7.1. Please comment on the overall content, organization, and presentation of the asbestos draft
risk evaluation. Please provide suggestions for improving the clarity of the information
presented.
7.2. Please comment on the objectivity of the information used to support the risk
characterization and the sensitivity of the agency's conclusions to analytic decisions made.
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