TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187 1 Number: P-18-0187 Chemical Name: Generic: Carboxylic acid-polyamine condensate


TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
Number: P-18-0187
TSCA Section 5(a)(3) Determination: The chemical substance is not likely to present an
unreasonable risk (5(a)(3)(C))
Chemical Name:
Generic: Carboxylic acid-polyamine condensate
Conditions of Use (intended, known, or reasonably foreseen)1:
Intended conditions of use (generic): Manufacture and process for use and use as an emulsifier
consistent with the manufacturing, processing, use, distribution, and disposal information
described in the PMN.
Known conditions of use: Applying such factors as described in footnote 1, EPA evaluated
whether there are known conditions of use and found none.
Reasonably foreseen conditions of use: Applying such factors as described in footnote 1, EPA
evaluated whether there are reasonably foreseen conditions of use and found none.
Summary: The chemical substance is not likely to present an unreasonable risk of injury to
health or the environment, without consideration of costs or other nonrisk factors, including an
unreasonable risk to a potentially exposed or susceptible subpopulation identified as relevant by
the Administrator under the conditions of use, based on the risk assessment presented below.
Although EPA estimated that the new chemical substance could be very persistent, the substance
has low potential for bioaccumulation, such that repeated exposures are not expected to cause
food-chain effects via accumulation in exposed organisms. Based on EPA's TSCA New
Chemicals Program Chemical Category for Aliphatic Amines and test data on analogous
chemical substances, EPA estimates that the chemical substance has high environmental hazard
and potential for the following human health hazards: irritation, sensitization, lung effects,
1	Under TSCA § 3(4), the term "conditions of use" means "the circumstances, as determined by the Administrator,
under which a chemical substance is intended, known, or reasonably foreseen to be manufactured, processed,
distributed in commerce, used, or disposed of." In general, EPA considers the intended conditions of use of a new
chemical substance to be those identified in the section 5(a) notification. Known conditions of use include activities
within the United States that result from manufacture that is exempt from PMN submission requirements.
Reasonably foreseen conditions of use are future circumstances, distinct from known or intended conditions of use,
under which the Administrator expects the chemical substance to be manufactured, processed, distributed, used, or
disposed of. The identification of "reasonably foreseen" conditions of use will necessarily be a case-by-case
determination and will be highly fact-specific. Reasonably foreseen conditions of use will not be based on
hypotheticals or conjecture. EPA's identification of conditions of use includes the expectation of compliance with
federal and state laws, such as worker protection standards or disposal restrictions, unless case-specific facts indicate
otherwise. Accordingly, EPA will apply its professional judgment, experience, and discretion when considering such
factors as evidence of current use of the new chemical substance outside the United States, evidence that the PMN
substance is sufficiently likely to be used for the same purposes as existing chemical substances that are structurally
analogous to the new chemical substance, and conditions of use identified in an initial PMN submission that the
submitter omits in a revised PMN. The sources EPA uses to identify reasonably foreseen conditions of use include
searches of internal confidential EPA PMN databases (containing use information on analogue chemicals), other
U.S. government public sources, the National Library of Medicine's Hazardous Substances Data Bank (HSDB), the
Chemical Abstract Service STN Platform, REACH Dossiers, technical encyclopedias (e.g., Kirk-Othmer and
Ullmann), and Internet searches.
2	TSCA New Chemicals Program (NCP) Chemical Categories, https://www.epa.gov/reviewing-new-chemicals-
under-toxic-substances-control-act-tsca/chemical-categories-used-review-new.
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TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
developmental toxicity and systemic toxicity. EPA concludes that the new chemical substance is
not likely to present an unreasonable risk under the conditions of use.
Fate: Environmental fate is the determination of which environmental compartment(s) a
chemical moves to, the expected residence time in the environmental compartment(s) and
removal and degradation processes. Environmental fate is an important factor in determining
exposure and thus in determining whether a chemical may present an unreasonable risk. EPA
estimated physical/chemical and fate properties of the new chemical substance using data for
analogue(s) [claimed CBI], In wastewater treatment, the new chemical substance is expected to
be removed with an efficiency of 90% due to sorption and possible biodegradation. Removal of
the new chemical substance by biodegradation is negligible to moderate. Sorption of the new
chemical substance to sludge, soil, and sediment is expected to be strong. Migration of the new
chemical substance to groundwater is expected to be slow due to strong sorption to soil and
sediment. Due to low estimated vapor pressure and Henry's law constant, the new chemical
substance is expected to undergo negligible volatilization to air. Overall, these estimates indicate
that the new chemical substance has low potential to volatilize to air or migrate to groundwater.
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Persistence : Persistence is relevant to whether a new chemical substance is likely to present an
unreasonable risk because chemicals that are not degraded in the environment at rates that
prevent substantial buildup in the environment, and thus increase potential for exposure, may
present a risk if the substance presents a hazard to human health or the environment. EPA
estimated degradation half-lives of the new chemical substance using data submitted for
analogue(s) [claimed CBI], EPA estimated that the new chemical substance's aerobic
biodegradation half-life is 2 to 6 months and anaerobic biodegradation half-life is > 6 months.
These estimates indicate that the new chemical substance may be persistent in aerobic
environments (e.g., surface water) and may be very persistent in anaerobic environments (e.g.,
sediment).
Bioaccumulation4: Bioaccumulation is relevant to whether a new chemical substance is likely
to present an unreasonable risk because substances that bioaccumulate in aquatic and/or
terrestrial species pose the potential for elevated exposures to humans and other organisms via
food chains. EPA estimated the potential for the new chemical substance to bioaccumulate using
data for analogue(s) [claimed CBI], EPA estimated that the new chemical substance has low
bioaccumulation potential based on bioconcentration or bioaccumulation data reported for
[claimed CBI], Although EPA estimated that the new chemical substance could be very
3	Persistence: A chemical substance is considered to have limited persistence if it has a half-life in water, soil or
sediment of less than 2 months or there are equivalent or analogous data. A chemical substance is considered to be
persistent if it has a half-life in water, soil or sediments of greater than 2 months but less than or equal to 6 months
or if there are equivalent or analogous data. A chemical substance is considered to be very persistent if it has a half-
life in water, soil or sediments of greater than 6 months or there are equivalent or analogous data. (64 FR 60194;
November 4, 1999)
4	Bioaccumulation: A chemical substance is considered to have a low potential for bioaccumulation if there are
bioconcentration factors (BCF) or bioaccumulation factors (BAF) of less than 1,000 or there are equivalent or
analogous data. A chemical substance is considered to be bioaccumulative if there are BCFs or BAFs of 1,000 or
greater and less than or equal to 5,000 or there are equivalent or analogous data. A chemical substance is considered
to be very bioaccumulative if there are BCFs or BAFs of 5,000 or greater or there are equivalent or analogous data.
(64 FR 60194; November 4 1999)
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TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
persistent, the substance has low potential for bioaccumulation, such that repeated exposures are
not expected to cause food-chain effects via accumulation in exposed organisms.
Human Health Hazard5: Human health hazard is relevant to whether a new chemical substance
is likely to present an unreasonable risk because the significance of the risk is dependent upon
both the hazard (or toxicity) of the chemical substance and the extent of exposure to the
substance. EPA estimated the human health hazard of this chemical substance based on its
estimated physical/chemical properties and by comparing it to structurally analogous chemical
substances for which there is information on human health hazard. Absorption of the new
chemical substance is expected to be nil via all routes for the neat solution based on
physical/chemical properties and moderate via the skin and good via the lung and GI tract when
in solution based on analogue data. For the new chemical substance, EPA identified skin and
respiratory sensitization as hazards based on analogue data and a structural alert for the [claimed
CBI] moiety, developmental toxicity as a hazard based on analogue data, and lung effects
(surfactant effects) and irritation (skin, eye, and lung) as hazards based on physical/chemical
properties. EPA identified a LOAEC of 0.08 mg/m3 based on for lung effects (surfactant effects)
and a NOAEL of 150 mg/kg/day based on body weight effects, which was protective for
systemic and developmental toxicity and were used to derive exposure route- and population-
specific points of departure for quantitative risk assessment. EPA qualitatively evaluated
irritation and sensitization effects.
Environmental Hazard6: Environmental hazard is relevant to whether a new chemical
substance is likely to present unreasonable risk because the significance of the risk is dependent
5	A chemical substance is considered to have low human health hazard if effects are observed in animal studies with
a No Observed Adverse Effect Level (NOAEL) equal to or greater than 1,000 mg/kg/day or if there are equivalent
data on analogous chemical substances; a chemical substance is considered to have moderate human health hazard if
effects are observed in animal studies with a NOAEL less than 1,000 mg/kg/day or if there are equivalent data on
analogous chemical substances; a chemical substance is considered to have high human health hazard if there is
evidence of adverse effects in humans or conclusive evidence of severe effects in animal studies with a NOAEL of
less than or equal to 10 mg/kg/day or if there are equivalent data on analogous chemical substances. EPA may also
use Benchmark Dose Levels (BMDL) derived from benchmark dose (BMD) modeling as points of departure for
toxic effects. See https://www.epa.gov/bmds/what-benchmark-dose-software-bmds. Using this approach, a BMDL
is associated with a benchmark response, for example a 5 or 10 % incidence of effect. The aforementioned
characterizations of hazard (low, medium, high) would also apply to BMDLs. In the absence of animal data on a
chemical or analogous chemical substance, EPA may use other data or information such as from in vitro assays,
chemical categories (e.g., Organization for Economic Co-operation and Development, 2014 Guidance on Grouping
of Chemicals, Second Edition. ENV/JM/MONO(2014)4. Series on Testing & Assessment No. 194. Environment
Directorate, Organization for Economic Co-operation and Development, Paris, France.
(http://www.oecd.org/officialdocuments/publicdisplavdocumentpdf/?cote=env/im/mono(2014)4&doclanguage=en)).
structure-activity relationships, and/or structural alerts to support characterizing human health hazards.
6	A chemical substance is considered to have low ecotoxicity hazard if the Fish, Daphnid and Algae LC50 values are
greater than 100 mg/L, or if the Fish and Daphnid chronic values (ChVs) are greater than 10.0 mg/L, or there are not
effects at saturation (occurs when water solubility of a chemical substance is lower than an effect concentration), or
the log Kow value exceeds QSAR cut-offs. A chemical substance is considered to have moderate ecotoxicity hazard
if the lowest of the Fish, Daphnid or Algae LC50s is greater than 1 mg/L and less than 100 mg/L, or where the Fish
or Daphnid ChVs are greater than 0.1 mg/L and less than 10.0 mg/L. A chemical substance is considered to have
high ecotoxicity hazard, or if either the Fish, Daphnid or Algae LC50s are less than 1 mg/L, or any Fish or Daphnid
ChVs is less than 0.1 mg/L (Sustainable Futures https://www.epa.gov/sustainable-futures/sustainable-futures-p2-
framework-manual).
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TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
upon both the hazard (or toxicity) of the chemical substance and the extent of exposure to the
substance. EPA estimated environmental hazard of this new chemical substance using the
Ecological Structure Activity Relationships (ECOSAR) Predictive Model
(https://www.epa.gov/tsca-screening-tools/ecological-structure-activity-relationships-ecosar-
predictive-model); specifically the QSAR for aliphatic amines. This substance falls within the
TSCA New Chemicals Category of Aliphatic Amines. Acute toxicity values estimated for fish,
aquatic invertebrates, and algae are all no effects at saturation (NES). Chronic toxicity values
estimated for fish, aquatic invertebrates, and algae are 0.00055 mg/L, 0.0016 mg/L, and no
effects at saturation, respectively. These toxicity values indicate that the new chemical substance
is expected to have high environmental hazard. Application of an assessment factor of 10 to
chronic toxicity values results in a chronic concentration of concern of 0.000055 mg/L (0.055
ppb; chronic fish). Due to uncertainties in the modeling estimates for this substance (e.g. log
Kow, toxicity values) and the limitations of analytical tools (e.g. HPLC, GC), the chronic COC is
rounded up to 1 ppb. An acute COC was not calculated because the acute toxicity values show
no effects at saturation.
Exposure: The exposure to a new chemical substance is potentially relevant to whether a new
chemical substance is likely to present unreasonable risks because the significance of the risk is
dependent upon both the hazard (or toxicity) of the chemical substance and the extent of
exposure to the substance.
EPA estimates occupational exposure and environmental release of the new chemical substance
under the intended conditions of use described in the PMN using ChemSTEER (Chemical
Screening Tool for Exposures and Environmental Releases; https://www.epa.gov/tsca-screening-
tools/chemsteer-chemical-screening-tool-exposures-and-environmental-releases). EPA uses
EFAST (the Exposure and Fate Assessment Screening Tool; https://www.epa.gov/tsca-
screening-tools/e-fast-exposure-and-fate-assessment-screening-tool-version-2014) to estimate
general population, consumer, and environmental exposures.
EPA considers workers to be a potentially exposed or susceptible subpopulation (PESS) on the
basis of greater exposure potential compared to the general population. EPA also considers PESS
in conducting general population drinking water exposures by evaluating risks associated with
water intake rates for multiple age groups, ranging from infants to adults. EPA considers
consumers of specific products to be a potentially exposed or susceptible subpopulation on the
basis of greater exposure potential compared to the general population who do not use specific
products.
For this assessment, EPA assessed worker exposure via the dermal route. Inhalation exposures to
workers are not expected. Releases to air and landfill were estimated. Exposure to the general
population was assessed via groundwater ingestion impacted by landfill leachate and stack air
releases. Exposure to the general population via drinking water or fish ingestion and fugitive air
releases was not assessed because the new chemical substance is not released to water and
fugitive air releases were expected to be negligible (below modeling thresholds). Consumer
exposures were not assessed because consumer uses were not identified as conditions of use.
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TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
Risk Characterization: EPA applies a margin of exposure approach to calculate potential
human health risks of new chemicals. A benchmark (acceptable) margin of exposure is derived
by applying uncertainty factors for the following types of extrapolations: intra-species
extrapolation (UFh = 10 to account for variation in sensitivity among the human population),
inter-species extrapolation (UFA = 10 to account for extrapolating from experimental animals to
humans) and LOAEL-to-NOAEL extrapolation (UFl = 10 to account for using a LOAEL when
a NOAEL is not available). Hence, in the New Chemicals Program, a benchmark MOE is
typically 100 and 1,000 when NOAELs and LOAELs, respectively, are used to identify hazard.
When allometric scaling or pharmacokinetic modeling is used to derive an effect level, the UFH
may be reduced to 3, for a benchmark MOE of 30. The benchmark MOE is used to compare to
the MOE calculated by comparing the toxicity NOAEL or LOAEL to the estimated exposure
concentrations. When the calculated MOE is equal to or exceeds the benchmark MOE, the new
chemical substance is not likely to present an unreasonable risk. EPA assesses risks to workers
considering engineering controls described in the PMN but in the absence of personal protective
equipment (PPE) such as gloves and respirators. If risks are preliminarily identified, EPA then
considers whether the risks would be mitigated by the use of PPE (e.g., impervious gloves,
respirator).
Risks to human health for the new chemical substance were evaluated using the route-specific
effect levels (i.e., NOAEL and LOAEL) described above. Risks were identified for workers for
systemic effects via dermal exposure based on quantitative hazard data for an analogue (MOE =
22, Benchmark MOE = 100). Risks were not evaluated for workers for surfactant effects via
dermal exposure because the hazards are not relevant to the exposure route. Risks were not
evaluated for workers via inhalation exposure because inhalation exposures are expected to be
negligible. Irritation and sensitization hazards to workers via dermal contact were identified
based on a structural alert for the [claimed CBI], analogue data, and physical/chemical
properties. Risks for these endpoints were not quantified due to a lack of dose-response for these
hazards. However, exposures can be mitigated by the use of appropriate personal protective
equipment (PPE), including impervious gloves and eye protection. EPA expects that employers
will require and that workers will use appropriate PPE consistent with the Safety Data Sheet
prepared by the new chemical submitter, in a manner adequate to protect them.
Risks were not identified for the general population for systemic effects via groundwater
ingestion impacted by landfill leachate and stack air releases based on quantitative hazard data
for an analogue (MOEs > 5 million; Benchmark MOE = 100). Risks were not identified for the
general population for lung effects (surfactant effects) via stack air releases based on quantitative
hazard data for an analogue (MOE = 253,358; Benchmark MOE = 1000). Risks were not
evaluated for the general population for surfactant effects via groundwater ingestion impacted by
landfill leachate because the hazards are not relevant to the exposure route. Risks were not
evaluated for the general population via drinking water or fish ingestion and fugitive air releases
because the new chemical substance is not released to water and fugitive air releases are
expected to be negligible. Sensitization and irritation hazards to the general population are not
expected via groundwater ingestion impacted by landfill leachate or stack air releases due to
dilution of the chemical substance in the media. Risks to consumers were not evaluated because
consumer uses were not identified as conditions of use.
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TSCA Section 5(a)(3) Determination for Premanufacture Notice (PMN) P-18-0187
Risks to the environment were not identified due to no releases to water.
Because worker exposures can be controlled by PPE, no unreasonable risks to the general
population or environment were identified, and there are no expected consumer exposures, EPA
has determined that the new chemical substance is not likely to present unreasonable risk to
human health or the environment under the conditions of use.
2/28/2020		Is/
Date:	Tala R. Henry, Ph.D.
Deputy Director for Programs
Office of Pollution Prevention and Toxics
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