NOAEL Studies Cosmetic Ingredient

ACRYLIC ACID NOAEL Studies

CAS: 79-10-7

Raw No Observed Adverse Effect Level endpoint records grouped by source. This page does not render calculated Margin of Safety values.

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EPA_IRIS_iris_rfc_systems.csv 2 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
EPA_IRIS_iris_rfc_systems.csv LOAEL (HEC) =0.33 mg/m^3 - inhalation chronic IRIS chronic inhalation RfC system PoD row_hash=ed4404214f19e49a; file=iris_rfc_systems.csv; kind=point_of_departure; raw_column=point_of_departure; raw_value=LOAEL (HEC): 3.3e-1 mg/m^3; system=Nervous, Respiratory; basis=Degeneration of the nasal olfactory epithelium; point_of_departure=LOAEL (HEC): 3.3e-1 mg/m^3; composite_uf=300; confidence=Medium; dtxsid=DTXSID0039229; detail_url=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; rfc_last_updated=04/01/1994; rfc_pdf_url=https://iris.epa.gov/static/pdfs/0002_summary.pdf
EPA_IRIS_iris_rfc_systems.csv RfC =0.001 mg/m^3 - inhalation chronic IRIS chronic inhalation RfC system row_hash=217ed4063f432290; file=iris_rfc_systems.csv; kind=reference_value; raw_column=rfc_mg_per_m3; raw_value=1e-3; system=Nervous, Respiratory; basis=Degeneration of the nasal olfactory epithelium; point_of_departure=LOAEL (HEC): 3.3e-1 mg/m^3; composite_uf=300; confidence=Medium; dtxsid=DTXSID0039229; detail_url=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; rfc_last_updated=04/01/1994; rfc_pdf_url=https://iris.epa.gov/static/pdfs/0002_summary.pdf
EPA_IRIS_iris_rfd_systems.csv 2 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
EPA_IRIS_iris_rfd_systems.csv NOAEL =53 mg/kg/day - oral chronic IRIS chronic oral RfD system PoD row_hash=3de09fd5ec2f790b; file=iris_rfd_systems.csv; kind=point_of_departure; raw_column=point_of_departure; raw_value=NOAEL : 5.3e1 mg/kg-day; system=Developmental; basis=Reduced pup weight; point_of_departure=NOAEL : 5.3e1 mg/kg-day; composite_uf=100; confidence=High; dtxsid=DTXSID0039229; detail_url=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; rfd_last_updated=04/01/1994; rfd_pdf_url=https://iris.epa.gov/static/pdfs/0002_summary.pdf
EPA_IRIS_iris_rfd_systems.csv RfD =0.5 mg/kg/day - oral chronic IRIS chronic oral RfD system row_hash=2c01a319acfe8a6b; file=iris_rfd_systems.csv; kind=reference_value; raw_column=rfd_mg_per_kg_day; raw_value=5e-1; system=Developmental; basis=Reduced pup weight; point_of_departure=NOAEL : 5.3e1 mg/kg-day; composite_uf=100; confidence=High; dtxsid=DTXSID0039229; detail_url=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; rfd_last_updated=04/01/1994; rfd_pdf_url=https://iris.epa.gov/static/pdfs/0002_summary.pdf
IARC Monographs 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
IARC Monographs IARC carcinogenicity classification 3 IARC group - - 1998 IARC Monographs {"additional_info":"volume_publication_year=1999","evaluation_year":1998,"source_table":"iarc_classifications","volume":"19, Sup 7, 71"}
INCHEM_WHO_ehc_ehc_ehc191 13 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
INCHEM_WHO_ehc_ehc_ehc191 LOAEL =15 mg/m3 - inhalation subchronic Chronic toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=b5a94ea105524395; raw_unit=mg/m 3; context=10.1.4 Risk evaluation 10.1.4.1 Inhalation exposure The LOAEL of 15 mg/m 3 (5 ppm) from the subchronic study is used as the basis for the guidance value.
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =1080 mg/m3 - - - Developmental toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=3e32685bb7b3205f; raw_unit=mg/m 3; context=This study identified a NOAEL for developmental effects of 1080 mg/m 3 and a LOAEL for maternal toxicity of 1080 mg/m 3 .
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =240 mg/kg bw/day - - - Reproductive toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=2484accdea59c073; raw_unit=mg/kg body weight per day; context=Based on these considerations and the presence of stomach histopathology at 460 mg/kg body weight per day, the NOAEL in the two- generation reproduction study was 240 mg/kg body weight per day.
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =140 mg/kg bw/day Rat; Mouse inhalation 12-month Chronic toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=608fe1872b128363; raw_unit=mg/kg body weight per day; context=The NOAEL based on body weight changes in the 12-month studies was 140 mg/kg body weight per day. e) Critical inhalation studies In a subchronic study, which is the only study that is potentially a critical study for inhalation, lesions in the nasal epithelium were seen in rats at 225 mg/m 3 (75 ppm) and in mice at 15 mg/m 3 (5 ppm).
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =78 mg/kg bw/day - oral 12-month Reproductive toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=f77c7be82856a15e; raw_unit=mg/kg body weight; context=V can be calculated based on NOAEL values in the 12-month oral study (140 mg/kg body weight per day), the two- generation reproductive study (240 mg/kg body weight per day) or the NOAEL in the chronic study (78 mg/kg body weight day).
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =331 mg/kg bw/day - - 12-month Reproductive toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=7162ab6d1af438dc; raw_unit=mg/kg body weight per day; context=The NOAEL is supported by the finding of adverse effects on body weight at 331 mg/kg body weight per day in the 12-month study and body weight effects and stomach pathology in the two-generation reproductive study at 460 mg/kg body weight per day.
INCHEM_WHO_ehc_ehc_ehc191 NOAEL =140 mg/kg bw Rat - - Toxicology study document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=ba1479c6ac4e936d; raw_unit=mg/kg; context=Lors d'études au cours desquelles des rats ont absorbé de l'acide acrylique dans leur eau de boisson, on a constaté que la dose sans effet nocif observable (NOAEL) était de 140 mg/kg de poids corporel par jour, le critère retenu étant la réduction du gain de poids sur 12 mois, et de 240 mg/kg de poids corporel par jour, la critère retenu dans ce cas étant la présence d'anomalies histologiques au niveau de l'estomac.
INCHEM_WHO_ehc_ehc_ehc191 NOEL =250 mg/kg bw/day Rat oral 3 months Carcinogenicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=6d5fb6c14826f53f; raw_unit=mg/kg bw/day; context=Key studies on the noncarcinogenic effects of repeated exposures to acrylic acid Species, route and dosage LOEL a NOEL a Observed effects Reference Rat, Fisher-344 oral, 250 mg/kg bw/day 83 mg/kg bw/day Decreased body weight, De Pass et al., drinking-water, 0, 83, reduced water and food 1983 250, 750 mg/kg body consumption, changes in weight/day for 3 months organ weights Rat, Wistar, gavage, 0, 150 mg/kg bw/day 50% mortality in both Hellwig
INCHEM_WHO_ehc_ehc_ehc191 NOEL =78 mg/kg bw/day Rat inhalation - Carcinogenicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=5eb606fb345e56b1; raw_unit=mg/kg bw/day; context=(contd.) Species, route and dosage LOEL a NOEL a Observed effects Reference Rat, Wistar, oral, 78 mg/kg bw/day No treatment-related Hellwig et al., drinking-water, 0, 8, 27, toxic effects including 1993 78 mg/kg body tumorogenicity weight/day for 26 (males) or 28 (females) months Rat, inhalation, 80, 300 300 ppm 80 ppm Nose irritation, lethargy Gage, 1970 ppm, 6 h/day
INCHEM_WHO_ehc_ehc_ehc191 NOEL =25 ppm Mouse inhalation 5 days Inhalation toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=bf38805cdcc44471; raw_unit=ppm; context=(contd.) Species, route and dosage LOEL a NOEL a Observed effects Reference Mouse, B6C3F 1 25 ppm Decrease in body weight Miller et al., inhalation, 0, 25, 74, (75 mg/m 3 ) gain, lesions in nasal 1979 223 ppm, 6 h/day mucosa 5 days/week for 2 weeks Mouse, B6C3F inhalation 5 ppm 5 ppm Atrophy, disorganization, Lomax et al., 0, 5, 25 ppm for 6 or 22 22 h/da
INCHEM_WHO_ehc_ehc_ehc191 NOEL =53 mg/kg bw/day - - - Reproductive toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=2dab8cd8a32661a8; raw_unit=mg/kg per day; context=Thus, 500 mg/litre (equivalent to 53 mg/kg per day) was a NOEL for both generations of offspring and also a NOAEL for general toxicity in the second parental generation.
INCHEM_WHO_ehc_ehc_ehc191 NOEL =2500 mg/L - - - Reproductive toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=5848ac648db28eef; raw_unit=mg/litre; context=The NOEL for general toxicity in the first parental generation was 2500 mg/litre (equivalent to 240 mg/kg per day).
INCHEM_WHO_ehc_ehc_ehc191 NOEL =675 mg/m3 - - - Developmental toxicity document_id=ehc_ehc_ehc191; title=Acrylic acid (EHC 191, 1997); path=mirror/documents/ehc/ehc/ehc191.htm; row_hash=8b2ad96fa95ecc3b; raw_unit=mg/m 3; context=This study identified a NOEL for developmental effects of 675 mg/m 3 .
INCHEM_WHO_hsg_hsg_v104hsg 2 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
INCHEM_WHO_hsg_hsg_v104hsg LOAEL =15 mg/m3 Mouse inhalation 90 days Subchronic toxicity document_id=hsg_hsg_v104hsg; title=Acrylic acid (HSG 104, 1997); path=mirror/documents/hsg/hsg/v104hsg.htm; row_hash=10712ee76eb1a68c; raw_unit=mg/m 3; context=For inhalation studies a lowest-observed- adverse-effect level (LOAEL) of 15 mg/m 3 (5 ppm) was observed in mice exposed to acrylic acid for 90 days, based on very mild nasal lesions in females at this level.
INCHEM_WHO_hsg_hsg_v104hsg LOAEL =15 mg/m3 Mouse inhalation 90 days Subchronic toxicity document_id=hsg_hsg_v104hsg; title=Acrylic acid (HSG 104, 1997); path=mirror/documents/hsg/hsg/v104hsg.htm; row_hash=10712ee76eb1a68c; raw_unit=mg/m 3; context=For inhalation studies a lowest-observed- adverse-effect level (LOAEL) of 15 mg/m 3 (5 ppm) was observed in mice exposed to acrylic acid for 90 days, based on very mild nasal lesions in females at this level.
NTP_ICE_acute_inhalation 11 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
NTP_ICE_acute_inhalation LC50 7.7644 mg/L - Inhalation Duration=4 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=572; Record_ID=acute_inhalation_2251; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=7.7644; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 >5.1 mg/L - Inhalation Duration=4 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=573; Record_ID=acute_inhalation_722; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response_Modifier=>; Response=5.1; Response_Unit=mg/L; Reference=REACH; URL=https://echa.europa.eu/registration-dossier/-/registered-dossier/15803/7/3/3/?documentUUID=a09926ae-850e-4408-bf6b-7055ef6843a9; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 >6.74 mg/L - Inhalation Duration=1 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=574; Record_ID=acute_inhalation_2700; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response_Modifier=>; Response=6.74; Response_Unit=mg/L; mg/L air (analytical); URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 3.5346 mg/L - Inhalation Duration=4 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=575; Record_ID=acute_inhalation_2255; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=3.5346; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 3.6 mg/L - Inhalation Duration=4 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=576; Record_ID=acute_inhalation_2253; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=3.6; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 >4.31 mg/L - Inhalation Duration=1 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=577; Record_ID=acute_inhalation_2701; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response_Modifier=>; Response=4.31; Response_Unit=mg/L; mg/L air (analytical); URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 0.879 mg/L - Inhalation Duration=4 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=578; Record_ID=acute_inhalation_2249; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=0.879; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 11.3403 mg/L - Inhalation Duration=1 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=579; Record_ID=acute_inhalation_2247; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=11.3403; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 1.283 mg/L - Inhalation Duration=1 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=580; Record_ID=acute_inhalation_2245; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=1.283; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 16.6481 mg/L - Inhalation Duration=0.5 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=581; Record_ID=acute_inhalation_2241; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=16.6481; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_acute_inhalation LC50 1.884 mg/L - Inhalation Duration=0.5 hr In Vivo; AcuteInhalNICEATM; Rat Acute Inhalation Toxicity sheet=Data; excel_row=582; Record_ID=acute_inhalation_2239; Data_Type=In Vivo; Internal_Data_Source=AcuteInhalNICEATM; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Rat Acute Inhalation Toxicity; Endpoint=LC50; Response=1.884; Response_Unit=mg/L; Reference=AEGL; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_cancer 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
NTP_ICE_cancer IARC group 3 unitless - - - WOE; IARC Carcinogenicity sheet=Data; excel_row=996; Record_ID=cancer_4120; Data_Type=WOE; Formulation_Name=Acrylic acid; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=IARC Carcinogenicity; Endpoint=IARC group; Response=3; Response_Unit=Unitless; URL=http://publications.iarc.fr/37; http://publications.iarc.fr/139; http://publications.iarc.fr/89; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation 36 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
NTP_ICE_skin_irritation Breakthrough Time 29 min - Dermal - In Vitro; Corrositex sheet=Data_invitro; excel_row=633; Record_ID=skin_irritation_invitro_30; Data_Type=In Vitro; Concentration=99; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Corrositex; Endpoint=Breakthrough Time; Response=29; Response_Unit=min; Reference=Botham et al. 1995; Not available; 10.1177/026119299502300207; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Breakthrough Time 28 min - Dermal - In Vitro; Corrositex sheet=Data_invitro; excel_row=635; Record_ID=skin_irritation_invitro_28; Data_Type=In Vitro; Concentration=99; Concentration_Units=%; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=Corrositex; Endpoint=Breakthrough Time; Response=28; Response_Unit=min; Reference=Botham et al. 1995; Not available; 10.1177/026119299502300207; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation TER 1.3 kiloohms - Dermal - In Vitro; TER Corrosion sheet=Data_invitro; excel_row=676; Record_ID=skin_irritation_invitro_2468; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=TER Corrosion; Endpoint=TER; Response=1.3; Response_Unit=kiloohms; Reference=Botham et al. 1995; Not available; 10.1177/026119299502300207; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (240 minutes) 2.9 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=673; Record_ID=skin_irritation_invitro_1847; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (240 minutes); Response=2.9; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (240 minutes) 3.4 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=674; Record_ID=skin_irritation_invitro_1846; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (240 minutes); Response=3.4; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (240 minutes) 3.2 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=675; Record_ID=skin_irritation_invitro_1845; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (240 minutes); Response=3.2; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 14.5 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=638; Record_ID=skin_irritation_invitro_1882; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (3 minutes); Response=14.5; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 0.5 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=639; Record_ID=skin_irritation_invitro_1866; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=0.5; Response_Unit=%; Reference=Tornier et al. 2010; 20471469; 10.1016/j.tiv.2010.05.005; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 4.8 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=640; Record_ID=skin_irritation_invitro_1877; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (3 minutes); Response=4.8; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 4.4 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=641; Record_ID=skin_irritation_invitro_1864; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=4.40; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 1.9 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=642; Record_ID=skin_irritation_invitro_1874; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (3 minutes); Response=1.9; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) -1.1 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=643; Record_ID=skin_irritation_invitro_1862; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=-1.10; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 2.6 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=645; Record_ID=skin_irritation_invitro_1860; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=2.6; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 1.2 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=646; Record_ID=skin_irritation_invitro_1870; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=1.2; Response_Unit=%; Reference=Tornier et al. 2010; 20471469; 10.1016/j.tiv.2010.05.005; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 3.1 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=647; Record_ID=skin_irritation_invitro_1858; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=3.1; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 1.5 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=648; Record_ID=skin_irritation_invitro_1868; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=1.5; Response_Unit=%; Reference=Tornier et al. 2010; 20471469; 10.1016/j.tiv.2010.05.005; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 2 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=650; Record_ID=skin_irritation_invitro_1852; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=2; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 2.4 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=651; Record_ID=skin_irritation_invitro_1850; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=2.4; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 2.9 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=654; Record_ID=skin_irritation_invitro_1856; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=2.9; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 3.3 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=655; Record_ID=skin_irritation_invitro_1849; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=3.3; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 3.7 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=658; Record_ID=skin_irritation_invitro_1848; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (3 minutes); Response=3.7; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 2.8 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=659; Record_ID=skin_irritation_invitro_1847; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (3 minutes); Response=2.8; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (3 minutes) 1.8 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=661; Record_ID=skin_irritation_invitro_1845; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (3 minutes); Response=1.8; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 2.7 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=668; Record_ID=skin_irritation_invitro_1845; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (60 minutes); Response=2.7; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 1.1 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=669; Record_ID=skin_irritation_invitro_1877; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (60 minutes); Response=1.10; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 0.9 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=670; Record_ID=skin_irritation_invitro_1882; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (60 minutes); Response=0.9; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 3.8 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=678; Record_ID=skin_irritation_invitro_1846; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (60 minutes); Response=3.8; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 2.5 % - Dermal - In Vitro; EpiSkin Corrosion sheet=Data_invitro; excel_row=679; Record_ID=skin_irritation_invitro_1847; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=EpiSkin Corrosion; Endpoint=Viability (60 minutes); Response=2.5; Response_Unit=%; Reference=Alepee et al. 2014; 24211528; 10.1016/j.tiv.2013.10.016; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 3.6 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=680; Record_ID=skin_irritation_invitro_1848; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=3.6; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 1.8 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=681; Record_ID=skin_irritation_invitro_1849; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=1.8; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 1.9 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=682; Record_ID=skin_irritation_invitro_1850; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=1.9; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 3 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=684; Record_ID=skin_irritation_invitro_1854; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=3; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 2.8 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=685; Record_ID=skin_irritation_invitro_1856; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=2.8; Response_Unit=%; Reference=Kandarova et al. 2006; 16455230; 10.1016/j.tiv.2005.11.008; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 0.3 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=690; Record_ID=skin_irritation_invitro_1866; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=0.3; Response_Unit=%; Reference=Tornier et al. 2010; 20471469; 10.1016/j.tiv.2010.05.005; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 0.4 % - Dermal - In Vitro; SkinEthic Corrosion sheet=Data_invitro; excel_row=692; Record_ID=skin_irritation_invitro_1870; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=SkinEthic Corrosion; Endpoint=Viability (60 minutes); Response=0.4; Response_Unit=%; Reference=Tornier et al. 2010; 20471469; 10.1016/j.tiv.2010.05.005; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
NTP_ICE_skin_irritation Viability (60 minutes) 0.2 % - Dermal - In Vitro; LabCyte Corrosion sheet=Data_invitro; excel_row=693; Record_ID=skin_irritation_invitro_1872; Data_Type=In Vitro; Mixture=Chemical; DTXSID=DTXSID0039229; Assay=LabCyte Corrosion; Endpoint=Viability (60 minutes); Response=0.2; Response_Unit=%; Reference=Katoh et al. 2010; 20519850; 10.2131/jts.35.411; URL_CompTox=https://comptox.epa.gov/dashboard/chemical/details/DTXSID0039229; URL_CEBS=https://doi.org/10.22427/NTP-DATA-DTXSID0039229
ToxValDB_Cal_OEHHA_REL_derivations 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_Cal_OEHHA_REL_derivations NOAEL =235.79 mg/m3 Rat inhalation short-term; 20 days short-term LONG_REF=Gage JC. The subacute inhalation toxicity of 109 industrial chemicals. Br J Ind Med 1970; 27:118.; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/68c97043e4b02565fc7d32b8; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://oehha.ca.gov/; SUBSOURCE_URL=https://oehha.ca.gov/sites/default/files/media/downloads/crnr/appendixd2final.pdf; YEAR=1999; ORIGINAL_YEAR=1999; TOXICOLOGICAL_EFFECT=nasal irritation; STUDY_GROUP=Cal OEHHA REL derivations:15951900:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_77fdcf244048734cdc17cb5a59cf917b
ToxValDB_DOE_Protective_Action_Criteria 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_DOE_Protective_Action_Criteria LEL =70737 mg/m3 Human inhalation - acute LONG_REF=U.S. Department of Energy (DOE) Protective Action Criteria (PAC). 2023. PAC Chemical Database. Updated 11 October 2023. Available: https://edms3.energy.gov/pac/ (Accessed November 16, 2023); TITLE=U.S. Department of Energy (DOE) Protective Action Criteria (PAC) Chemical Database; AUTHOR=U.S. Department of Energy; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/65428efee4b045b9ff7cc432; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://edms3.energy.gov/pac/TeelDocs; YEAR=2005; ORIGINAL_YEAR=2005; STUDY_GROUP=DOE Protective Action Criteria:15511841:-:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_00d11619f0aee6add5fffaa46405e487
ToxValDB_ECHA_IUCLID 3 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_ECHA_IUCLID LOAEL =150 mg/kg bw/day Rat oral subchronic; 90 days subchronic QUALITY=2 (reliable with restrictions); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/669eaf51e4b0a7c65d1cd6f5; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://echa.europa.eu/; SUBSOURCE_URL=https://echa.europa.eu/registration-dossier/-/registered-dossier/22071/7/6/2?documentUUID=d13d71e3-65c5-4b1c-bf06-d17c5394d99a; YEAR=1988; ORIGINAL_YEAR=1988; STUDY_GROUP=ECHA IUCLID:15831659:M/F:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_7ca1fc0867ab0660fe0df29afc6c4f79
ToxValDB_ECHA_IUCLID LOAEL =250 mg/kg bw/day Rat oral subchronic; 90 days subchronic QUALITY=2 (reliable with restrictions); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/669eaf51e4b0a7c65d1cd705; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://echa.europa.eu/; SUBSOURCE_URL=https://echa.europa.eu/registration-dossier/-/registered-dossier/22071/7/6/2?documentUUID=d13d71e3-65c5-4b1c-bf06-d17c5394d99a; YEAR=1988; ORIGINAL_YEAR=1988; STUDY_GROUP=ECHA IUCLID_dup_Repeated Dose Toxicity Oral_15834945_15834946:M/F:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_d2dcfd3fbe191c5237ef2f077815a1c5
ToxValDB_ECHA_IUCLID NOAEL =83 mg/kg bw/day Rat oral subchronic; 90 days subchronic QUALITY=2 (reliable with restrictions); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/669eaf51e4b0a7c65d1cd705; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://echa.europa.eu/; SUBSOURCE_URL=https://echa.europa.eu/registration-dossier/-/registered-dossier/22071/7/6/2?documentUUID=d13d71e3-65c5-4b1c-bf06-d17c5394d99a; YEAR=1988; ORIGINAL_YEAR=1988; STUDY_GROUP=ECHA IUCLID_dup_Repeated Dose Toxicity Oral_15834945_15834946:M/F:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_b1b65de7d32c87d0a0db08095dcb2052
ToxValDB_ECOTOX 28 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_ECOTOX LOEL =100 ul/org Mouse dermal short-term; 7 days short-term LONG_REF=EPA/OTS Doc. #89-910000139s:1460 p. EPA/OTS Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized) 1990; TITLE=Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized); AUTHOR=EPA/OTS; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=152047; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1990; ORIGINAL_YEAR=1990; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15597459_15597460:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=05b7eeebbf2b758f77115aae5fa1e224
ToxValDB_ECOTOX LOEL =5000 mg/L Rat oral subchronic; 84 days subchronic LONG_REF=Food Chem. Toxicol.31(1): 1-18 Hellwig,J., K. Deckardt, and K.O. Freisberg Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats 1993; TITLE=Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats; AUTHOR=Hellwig,J., K. Deckardt, and K.O. Freisberg; DOI=10.1016/0278-6915(93)90172-u; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151679; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1993; ORIGINAL_YEAR=1993; TOXICOLOGICAL_EFFECT=Cell(s): Red blood cell; TOXICOLOGICAL_EFFECT_CATEGORY=hematology; STUDY_GROUP=ECOTOX_dup_EPA ORD_15598016_15598017:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=82d4d395440362356e409975b6ce0bfa
ToxValDB_ECOTOX LOEL =0.6 % Rat oral acute; 1 days acute LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15601809_15601810:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=301b712a046627e49eaf6057eaafda36
ToxValDB_ECOTOX LOEL =4 % Mouse dermal subchronic; 56 days subchronic LONG_REF=Food Chem. Toxicol.33(6): 507-513 McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid 1995; TITLE=Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid; AUTHOR=McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy; DOI=10.1016/0278-6915(95)00011-p; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=151653; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1995; ORIGINAL_YEAR=1995; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15605219_15605220:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=d6dcd6fee34197fadf56269bec79f7e9
ToxValDB_ECOTOX LOEL =8 % w/v Rat oral acute; 0.0417 days acute LONG_REF=Fundam. Appl. Toxicol.8(4): 549-561 DeBethizy,J.D., J.R. Udinsky, H.E. Scribner, and C.B. Frederick The Disposition and Metabolism of Acrylic Acid and Ethyl Acrylate in Male Sprague-Dawley Rats 1987; TITLE=The Disposition and Metabolism of Acrylic Acid and Ethyl Acrylate in Male Sprague-Dawley Rats; AUTHOR=DeBethizy,J.D., J.R. Udinsky, H.E. Scribner, and C.B. Frederick; DOI=10.1016/0272-0590(87)90140-0; QUALITY=Control type: Control outside of primary exposure system; EXTERNAL_SOURCE_ID=151701; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1987; ORIGINAL_YEAR=1987; TOXICOLOGICAL_EFFECT=Biochemistry: Nonprotein sulfhydryl; TOXICOLOGICAL_EFFECT_CATEGORY=other; STUDY_GROUP=ECOTOX_dup_EPA ORD_15606574_15606575:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=75c2427163aa59bb50b3e6ede60ebde2
ToxValDB_ECOTOX LOEL =730 mg/L Rat oral chronic; 21 weeks chronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Growth: Weight gain|Morphology: Organ weight in relationship to body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|organ weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15611251_15611252_15611518_15611520:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=a5fc32bd689107f654189dbf977ee283
ToxValDB_ECOTOX NOEL =100 ul/org Mouse dermal chronic; 623 days chronic LONG_REF=EPA/OTS Doc. #89-910000139s:1460 p. EPA/OTS Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized) 1990; TITLE=Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized); AUTHOR=EPA/OTS; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=152047; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1990; ORIGINAL_YEAR=1990; TOXICOLOGICAL_EFFECT=Cell(s): Hematopoiesis|Histology: Dilation|Injury: Adenoma|Physiology: Minerialization; TOXICOLOGICAL_EFFECT_CATEGORY=cancer|nonneoplastic histopathology; STUDY_GROUP=ECOTOX_dup_EPA ORD_15594642_15603486_15603487_15605766:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=e38fce4afb6da22bc2f21d4ad5985ae1
ToxValDB_ECOTOX NOEL =78 mg/kg bw/day Rat oral chronic; 791.44 days chronic LONG_REF=Food Chem. Toxicol.31(1): 1-18 Hellwig,J., K. Deckardt, and K.O. Freisberg Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats 1993; TITLE=Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats; AUTHOR=Hellwig,J., K. Deckardt, and K.O. Freisberg; DOI=10.1016/0278-6915(93)90172-u; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151679; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1993; ORIGINAL_YEAR=1993; TOXICOLOGICAL_EFFECT=Cell(s): Thrombocytes|Feeding behavior: Water consumption; TOXICOLOGICAL_EFFECT_CATEGORY=food and/or water consumption|hematology; STUDY_GROUP=ECOTOX:15594925:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=c900e5bf677d1ca96dabcd9ed2644984
ToxValDB_ECOTOX NOEL =84 mg/L Rat oral subchronic; 90 days subchronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Biochemistry: Cholesterol|Enzyme(s): Alkaline phosphatase|Feeding behavior: Water consumption|Growth: Weight gain|Morphology: Organ weight in relationship to body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|clinical chemistry|food and/or water consumption|organ weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15595269_15595270:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=4945b9b10be990cf1d0ebf5987b29c02
ToxValDB_ECOTOX NOEL =1000 mg/kg bw/day Rat oral acute; 1 days acute LONG_REF=EPA/OTS Doc. #FYI-OTS-0787-0367:26 p. Rohm and Haas Co. Letter from Rohm Haas Co to USEPA Regarding Cytogeneticity Studies of Acrylic Acid in Chinese Hamster Ovary and Rat Bone Marrow In Vitro 1986; TITLE=Letter from Rohm Haas Co to USEPA Regarding Cytogeneticity Studies of Acrylic Acid in Chinese Hamster Ovary and Rat Bone Marrow In Vitro; AUTHOR=Rohm and Haas Co.; QUALITY=Control type: Multiple control types; EXTERNAL_SOURCE_ID=151778; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1986; ORIGINAL_YEAR=1986; TOXICOLOGICAL_EFFECT=Genetics: Chromosomal aberrations; TOXICOLOGICAL_EFFECT_CATEGORY=other; STUDY_GROUP=ECOTOX:15596497:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=3ae7095979a02e09d2af8ef8e700c8fc
ToxValDB_ECOTOX NOEL =25 ul/org Mouse dermal short-term; 7 days short-term LONG_REF=EPA/OTS Doc. #89-910000139s:1460 p. EPA/OTS Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized) 1990; TITLE=Support Document: Chronic Dermal Oncogenicity Study with Acrylic Acid in [C3H/HeN HsD BR] and [HsD: (ICR) BR] Mice with Letter 010491 ((Binder I-VI) (Project Report) (Sanitized); AUTHOR=EPA/OTS; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=152047; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1990; ORIGINAL_YEAR=1990; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15597459_15597460:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=46eb7e628c708831a53ecfbd84da5c4c
ToxValDB_ECOTOX NOEL =5000 mg/L Rat oral short-term; 5 days short-term LONG_REF=EPA/OTS Doc. #FYI-OTS-0787-0367:26 p. Rohm and Haas Co. Letter from Rohm Haas Co to USEPA Regarding Cytogeneticity Studies of Acrylic Acid in Chinese Hamster Ovary and Rat Bone Marrow In Vitro 1986; TITLE=Letter from Rohm Haas Co to USEPA Regarding Cytogeneticity Studies of Acrylic Acid in Chinese Hamster Ovary and Rat Bone Marrow In Vitro; AUTHOR=Rohm and Haas Co.; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151778; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1986; ORIGINAL_YEAR=1986; TOXICOLOGICAL_EFFECT=Genetics: Chromosomal aberrations; TOXICOLOGICAL_EFFECT_CATEGORY=other; STUDY_GROUP=ECOTOX:15597936:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=12c8be675bc33ef05d322912e56174a3
ToxValDB_ECOTOX NOEL =2000 mg/L Rat oral subchronic; 84 days subchronic LONG_REF=Food Chem. Toxicol.31(1): 1-18 Hellwig,J., K. Deckardt, and K.O. Freisberg Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats 1993; TITLE=Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats; AUTHOR=Hellwig,J., K. Deckardt, and K.O. Freisberg; DOI=10.1016/0278-6915(93)90172-u; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151679; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1993; ORIGINAL_YEAR=1993; TOXICOLOGICAL_EFFECT=Cell(s): Red blood cell; TOXICOLOGICAL_EFFECT_CATEGORY=hematology; STUDY_GROUP=ECOTOX_dup_EPA ORD_15598016_15598017:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=20cc54a1473ae97fe821fb6e576c39e2
ToxValDB_ECOTOX NOEL =740 mg/L Rat oral subchronic; 90 days subchronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Enzyme(s): Alkaline phosphatase; TOXICOLOGICAL_EFFECT_CATEGORY=clinical chemistry; STUDY_GROUP=ECOTOX_dup_EPA ORD_15598913_15605365_15605366_15609731_15609732_15610086:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=7470e7d1ff7fc2ee2a2a16d76c0028e3
ToxValDB_ECOTOX NOEL =27 mg/kg bw/day Rat oral chronic; 365.28 days chronic LONG_REF=Food Chem. Toxicol.31(1): 1-18 Hellwig,J., K. Deckardt, and K.O. Freisberg Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats 1993; TITLE=Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats; AUTHOR=Hellwig,J., K. Deckardt, and K.O. Freisberg; DOI=10.1016/0278-6915(93)90172-u; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151679; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1993; ORIGINAL_YEAR=1993; TOXICOLOGICAL_EFFECT=Biochemistry: Mean corpuscular hemoglobin; TOXICOLOGICAL_EFFECT_CATEGORY=hematology; STUDY_GROUP=ECOTOX_dup_EPA ORD_15599876_15599877:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=7b264e0b268122437c6a10f5daedb3e9
ToxValDB_ECOTOX NOEL =0.3 % Rat oral acute; 1 days acute LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15601809_15601810:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=86f5da489fe092a8cbc1a6d5c5b793f0
ToxValDB_ECOTOX NOEL =750 mg/L Rat oral chronic; 132 days chronic LONG_REF=EPA/OTS Doc. #FYI-AX-1082-0212:22 p. Indus Acrylate Testing Group Acrylate Toxicity Data with Cover Letter & EPA Acknowledgement of Receipt of Data 1982; TITLE=Acrylate Toxicity Data with Cover Letter & EPA Acknowledgement of Receipt of Data; AUTHOR=Indus Acrylate Testing Group; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151632; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1982; ORIGINAL_YEAR=1982; TOXICOLOGICAL_EFFECT=Reproduction: Reproduction, general; TOXICOLOGICAL_EFFECT_CATEGORY=reproduction; STUDY_GROUP=ECOTOX:15602241:M/F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=4e04d579f46d359a147f233be45f1c78
ToxValDB_ECOTOX NOEL =0.6 % Rat oral short-term; 7 days short-term LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX:15605180:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=08d89d2014a2868b8ee0c3722f2b7bb8
ToxValDB_ECOTOX NOEL =1 % Mouse dermal subchronic; 56 days subchronic LONG_REF=Food Chem. Toxicol.33(6): 507-513 McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid 1995; TITLE=Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid; AUTHOR=McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy; DOI=10.1016/0278-6915(95)00011-p; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=151653; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1995; ORIGINAL_YEAR=1995; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15605219_15605220:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=e228fc7f6452427897153dde822b67c5
ToxValDB_ECOTOX NOEL =4 % Mouse dermal chronic; 91 days chronic LONG_REF=Food Chem. Toxicol.33(6): 507-513 McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid 1995; TITLE=Comparison of the Maximum Tolerated Dose (MTD) Dermal Response in Three Strains of Mice Following Repeated Exposure to Acrylic Acid; AUTHOR=McLaughlin,J.E., J. Parno, F.M. Garner, J.J. Clary, W.C. Thomas, and S.R. Murphy; DOI=10.1016/0278-6915(95)00011-p; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=151653; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1995; ORIGINAL_YEAR=1995; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX:15606111:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=66c3509463666d08c2ad7fc3089c123a
ToxValDB_ECOTOX NOEL =0.08 % w/v Rat oral acute; 0.0417 days acute LONG_REF=Fundam. Appl. Toxicol.8(4): 549-561 DeBethizy,J.D., J.R. Udinsky, H.E. Scribner, and C.B. Frederick The Disposition and Metabolism of Acrylic Acid and Ethyl Acrylate in Male Sprague-Dawley Rats 1987; TITLE=The Disposition and Metabolism of Acrylic Acid and Ethyl Acrylate in Male Sprague-Dawley Rats; AUTHOR=DeBethizy,J.D., J.R. Udinsky, H.E. Scribner, and C.B. Frederick; DOI=10.1016/0272-0590(87)90140-0; QUALITY=Control type: Control outside of primary exposure system; EXTERNAL_SOURCE_ID=151701; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1987; ORIGINAL_YEAR=1987; TOXICOLOGICAL_EFFECT=Biochemistry: Nonprotein sulfhydryl; TOXICOLOGICAL_EFFECT_CATEGORY=other; STUDY_GROUP=ECOTOX_dup_EPA ORD_15606574_15606575:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=2b2ad23cf42780aeb34b4d8262073bb9
ToxValDB_ECOTOX NOEL =10 % Mouse dermal short-term; 10 days short-term LONG_REF=EPA/OTS Doc. #86-890001491S:18 p. Carneigie-Mellon Institute of Research Letter from Carnegie-Mellon Inst of Research Concerning Results of the 2-Week Preliminary Skin Dosing of Acrylic Acid & Ethyl Acrylate with Attached, Cover Sheets (Sanitized) 1989; TITLE=Letter from Carnegie-Mellon Inst of Research Concerning Results of the 2-Week Preliminary Skin Dosing of Acrylic Acid & Ethyl Acrylate with Attached, Cover Sheets (Sanitized); AUTHOR=Carneigie-Mellon Institute of Research; QUALITY=Control type: Carrier or solvent control; EXTERNAL_SOURCE_ID=152050; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1989; ORIGINAL_YEAR=1989; TOXICOLOGICAL_EFFECT=Growth: Weight gain; TOXICOLOGICAL_EFFECT_CATEGORY=body weight; STUDY_GROUP=ECOTOX:15607904:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=4f1ea775b09671b36518e1c54ef48783
ToxValDB_ECOTOX NOEL =365.25 mg/kg bw/day Rat oral chronic; 91.32 days chronic LONG_REF=EPA/OTS Doc. #88-920009570:75 p. BASF Aktiengesellschaft Initial Submission: Report on the Study of the Toxicity of Acrylic Acid in Rats After 3-Month Administration by Gavage with Cover Letter Dated 081092 1992; TITLE=Initial Submission: Report on the Study of the Toxicity of Acrylic Acid in Rats After 3-Month Administration by Gavage with Cover Letter Dated 081092; AUTHOR=BASF Aktiengesellschaft; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151659; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1992; ORIGINAL_YEAR=1992; TOXICOLOGICAL_EFFECT=Growth: Weight|Morphology: Weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|other; STUDY_GROUP=ECOTOX:15610799:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=4ea6f7f3c28bb1d7ff17b46279d42600
ToxValDB_ECOTOX NOEL >178.4 mg/kg bw/day Rat oral chronic; 365.28 days chronic LONG_REF=Food Chem. Toxicol.31(1): 1-18 Hellwig,J., K. Deckardt, and K.O. Freisberg Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats 1993; TITLE=Subchronic and Chronic Studies of the Effects of Oral Administration of Acrylic Acid to Rats; AUTHOR=Hellwig,J., K. Deckardt, and K.O. Freisberg; DOI=10.1016/0278-6915(93)90172-u; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151679; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1993; ORIGINAL_YEAR=1993; TOXICOLOGICAL_EFFECT=Histology: Histological changes, general; TOXICOLOGICAL_EFFECT_CATEGORY=nonneoplastic histopathology; STUDY_GROUP=ECOTOX:15611011:M/F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=e9c4bbc664281fa3511a333c486a7a61
ToxValDB_ECOTOX NOEL =0.2 mg/org Mouse dermal chronic; 850 days chronic LONG_REF=J. Toxicol. Environ. Health14:115-120 DePass,L.R., E.H. Fowler, D.R. Meckley, and C.S. Weil Dermal Oncogenicity Bioassays of Acrylic Acid, Ethyl Acrylate, and Butyl Acrylate 1984; TITLE=Dermal Oncogenicity Bioassays of Acrylic Acid, Ethyl Acrylate, and Butyl Acrylate; AUTHOR=DePass,L.R., E.H. Fowler, D.R. Meckley, and C.S. Weil; DOI=10.1080/15287398409530566; QUALITY=Control type: Multiple control types; EXTERNAL_SOURCE_ID=91232; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1984; ORIGINAL_YEAR=1984; TOXICOLOGICAL_EFFECT=Injury: Tumor induction|Mortality: Mortality; TOXICOLOGICAL_EFFECT_CATEGORY=cancer|mortality/survival; STUDY_GROUP=ECOTOX:15611146:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=44deb7abdc79f902cd92db73da1698b7
ToxValDB_ECOTOX NOEL =250 mg/L Rat oral chronic; 21 weeks chronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Growth: Weight gain|Morphology: Organ weight in relationship to body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|organ weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15611251_15611252_15611518_15611520:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=c7632f8e19d81e24c7d64e17f408924a
ToxValDB_ECOTOX NOEL =83 mg/L Rat oral chronic; 21 weeks chronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Feeding behavior: Water consumption|Growth: Weight gain|Morphology: Organ weight in relationship to body weight; TOXICOLOGICAL_EFFECT_CATEGORY=body weight|food and/or water consumption|organ weight; STUDY_GROUP=ECOTOX_dup_EPA ORD_15611303_15611304_15611332:F:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=4cbf2c5cfbeea7129fbd11455b6e845b
ToxValDB_ECOTOX NOEL =85 mg/L Rat oral chronic; 21 weeks chronic LONG_REF=Drug Chem. Toxicol.6(1): 1-20 DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat 1983; TITLE=Subchronic and Reproductive Toxicology Studies on Acrylic Acid in the Drinking Water of the Rat; AUTHOR=DePass,L.R., M.D. Woodside, R.H. Garman, and C.S. Weil; DOI=10.3109/01480548309072459; QUALITY=Control type: Concurrent control; EXTERNAL_SOURCE_ID=151682; EXTERNAL_SOURCE_ID_DESC=ECOTOX Reference Number; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6759bce8e4b0a7c65d37bc5f; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://cfpub.epa.gov/ecotox/; YEAR=1983; ORIGINAL_YEAR=1983; TOXICOLOGICAL_EFFECT=Feeding behavior: Water consumption; TOXICOLOGICAL_EFFECT_CATEGORY=food and/or water consumption; STUDY_GROUP=ECOTOX_dup_EPA ORD_15611251_15611252_15611518_15611520:M:--; QC_CATEGORY=Data source QC'd by data provider prior to ECOTOX import; QC_STATUS=not determined; SOURCE_HASH=0dd7213cd008d4af9a172a9711e5781f
ToxValDB_EU_SCOEL 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_EU_SCOEL NOAEL =73.6844 mg/m3 Rat inhalation subchronic; 90 days subchronic LONG_REF=Miller RR, Ayres JA, Jersey GC, McKenna MJ (1981). Inhalation toxicity of acrylic acid. Fundam Appl Toxicol 1:271-277.; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/68c985b9e4b02565fc7d359b; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://echa.europa.eu; SUBSOURCE_URL=https://echa.europa.eu/documents/10162/35144386/097_acrylic_acid_oel_en.pdf; YEAR=2012; ORIGINAL_YEAR=2012; TOXICOLOGICAL_EFFECT=effects on the olfactory epithelium; STUDY_GROUP=EU SCOEL:15952315:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_07c5317a9a913b923952621b3869ef37
ToxValDB_GESTIS_DNEL 1 endpoint
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_GESTIS_DNEL DNEL local =30 mg/m3 Human inhalation - Toxicity Value STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/6543dd69e4b045b9ff7cd87e; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.dguv.de/ifa/gestis/gestis-dnel-liste/index-2.jsp; STUDY_GROUP=GESTIS DNEL_dup_-_15629498_15629499:-:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_d84f89dbdd5aed4aa67e2c78aac35c2e
ToxValDB_HPVIS 3 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_HPVIS NOAEL =66 mg/kg bw/day Rat oral subchronic; 3 months subchronic LONG_REF=BASF AG, Abteilung Toxikologie (1987): Unpublished Report 821380, 11.12.1987Hellwlg, J. et ai. (1993): Fd. Chem. Toxicol. 31, 1-18Posting dates of the documents from the HPV Challenge Program website from which data have been entered into the HPVIS: Aug. 22, 2006.; QUALITY=1; EXTERNAL_SOURCE_ID=61363; EXTERNAL_SOURCE_ID_DESC=HPVIS ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/63861d6de4b04f6bb1480596; RECORD_SOURCE_LEVEL=Extraction document; YEAR=1993; ORIGINAL_YEAR=1993; STUDY_GROUP=HPVIS:15640243:F:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_dda5a8e91f9df661cc980c9c58b4f6ba
ToxValDB_HPVIS NOAEL =40 mg/kg bw/day Rat oral subchronic; 3 months subchronic LONG_REF=BASF AG, Abteilung Toxikologie (1987): Unpublished Report 821380, 11.12.1987Hellwlg, J. et ai. (1993): Fd. Chem. Toxicol. 31, 1-18Posting dates of the documents from the HPV Challenge Program website from which data have been entered into the HPVIS: Aug. 22, 2006.; QUALITY=1; EXTERNAL_SOURCE_ID=63698; EXTERNAL_SOURCE_ID_DESC=HPVIS ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/63861d6de4b04f6bb1480596; RECORD_SOURCE_LEVEL=Extraction document; YEAR=1993; ORIGINAL_YEAR=1993; STUDY_GROUP=HPVIS:15640291:M:--; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_1a896dd224f07dc005983d6973760531
ToxValDB_HPVIS NOAEL =73.6844 mg/m3 Rabbit inhalation short-term; 13 days reproduction developmental LONG_REF=Neeper-Bradley, T.L., Fowler, E.H., Pritts, I.M., Tyler, T.R. (1997): Food Chem. Toxicol. 35, 869-880Union Carbide, Bushy Run Research Center (1993): Unpublishedreport (Project-No.: 92N1008), 24.06.1993Posting dates of the documents from the HPV Challenge Program website from which data have been entered into the HPVIS: Aug. 22, 2006.; QUALITY=1; EXTERNAL_SOURCE_ID=58042; EXTERNAL_SOURCE_ID_DESC=HPVIS ID; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/63861d6de4b04f6bb1480590; RECORD_SOURCE_LEVEL=Extraction document; YEAR=1981; ORIGINAL_YEAR=1981; STUDY_GROUP=HPVIS:15642326:F:-maternal; QC_CATEGORY=Programmatically extracted from structured data source; Source overall passed QC, but this record was not manually checked; QC_STATUS=not determined; SOURCE_HASH=ToxValhc_04b7246c64a9d47d3ff8225e9c6d7614
ToxValDB_IRIS 7 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_IRIS LOAEL =240 mg/kg bw/day Rat oral chronic (developmental) developmental LONG_REF=BASF (Badische Anilin- und Sodafabrik). 1993. Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation). Project No. 71R0114/92011. BASF Aktiengesellschaft, Dept. of Toxicology, Rhein, FRG.; TITLE=Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation); AUTHOR=BASF (Badische Anilin- und Sodafabrik); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=reduced pup weight; TOXICOLOGICAL_EFFECT_CATEGORY=development; STUDY_GROUP=IRIS_dup_IRIS Summary_15644228_15644229:M/F:F1-; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_98d4a25ed4096ef1be85ec62c02fd474
ToxValDB_IRIS LOAEL =14.94 mg/m3 Mouse inhalation subchronic; 13 weeks subchronic LONG_REF=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna. 1981a. Inhalation toxicity of acrylic acid. Fund. Appl. Toxicol. 1(3): 271-277.; TITLE=Inhalation toxicity of acrylic acid; AUTHOR=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=degeneration of the nasal olfactory epithelium; STUDY_GROUP=IRIS_dup_IRIS Summary_15644231_15644232_15644233:M/F:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_8c955e520b64883673017ef1a432d4c1
ToxValDB_IRIS LOAEL (ADJ) =2.67 mg/m3 Mouse inhalation subchronic; 13 weeks subchronic LONG_REF=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna. 1981a. Inhalation toxicity of acrylic acid. Fund. Appl. Toxicol. 1(3): 271-277.; TITLE=Inhalation toxicity of acrylic acid; AUTHOR=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=degeneration of the nasal olfactory epithelium; STUDY_GROUP=IRIS_dup_IRIS Summary_15644231_15644232_15644233:M/F:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_1d8aba2ad90ee13fac2a2ef4eb86cf8e
ToxValDB_IRIS LOAEL (HEC) =0.33 mg/m3 Mouse inhalation subchronic; 13 weeks subchronic LONG_REF=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna. 1981a. Inhalation toxicity of acrylic acid. Fund. Appl. Toxicol. 1(3): 271-277.; TITLE=Inhalation toxicity of acrylic acid; AUTHOR=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=degeneration of the nasal olfactory epithelium; STUDY_GROUP=IRIS_dup_IRIS Summary_15644231_15644232_15644233:M/F:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_0b53f1e8cc6fbdee553942e9509b6546
ToxValDB_IRIS NOAEL =53 mg/kg bw/day Rat oral chronic (developmental) developmental LONG_REF=BASF (Badische Anilin- und Sodafabrik). 1993. Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation). Project No. 71R0114/92011. BASF Aktiengesellschaft, Dept. of Toxicology, Rhein, FRG.; TITLE=Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation); AUTHOR=BASF (Badische Anilin- und Sodafabrik); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=reduced pup weight; TOXICOLOGICAL_EFFECT_CATEGORY=development; STUDY_GROUP=IRIS_dup_IRIS Summary_15644228_15644229:M/F:F1-; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_e4529ff04ab1ce043a55c1e88f29fe35
ToxValDB_IRIS RfC =0.001 mg/m3 Human inhalation - Toxicity Value LONG_REF=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna. 1981a. Inhalation toxicity of acrylic acid. Fund. Appl. Toxicol. 1(3): 271-277.; TITLE=Inhalation toxicity of acrylic acid; AUTHOR=Miller, R.R., J.A. Ayres, G.C. Jersey, and M.J. McKenna; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=Degeneration of the nasal olfactory epithelium in male/female mice; STUDY_GROUP=IRIS:15644234:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_30a2bfb0ffab25d640ad7f507a0d8f20
ToxValDB_IRIS RfD =0.5 mg/kg bw/day Human oral - Toxicity Value LONG_REF=BASF (Badische Anilin- und Sodafabrik). 1993. Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation). Project No. 71R0114/92011. BASF Aktiengesellschaft, Dept. of Toxicology, Rhein, FRG.; TITLE=Reproduction toxicity study with acrylic acid in rats: Continuous administration in the drinking water over 2 generations (1 litter in the first and 1 litter in the second generation); AUTHOR=BASF (Badische Anilin- und Sodafabrik); STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/652e8a2ce4b045b9ff7a4c9a; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/iris; SUBSOURCE_URL=https://iris.epa.gov/ChemicalLanding/&substance_nmbr=2; TOXICOLOGICAL_EFFECT=Reduced pup weight in F1 male/female rats; STUDY_GROUP=IRIS:15644230:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_46a4f80542ae62ab3403dde4229fe46b
ToxValDB_PPRTV_(CPHEA) 3 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
ToxValDB_PPRTV_(CPHEA) BMCL (10 HEC) =0.02 mg/m3 Mouse inhalation subchronic; 13 weeks subchronic LONG_REF=Miller et al. 1981; AUTHOR=Miller et al; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/640754bee4b08a6b3934b31e; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/pprtv/basic-information-about-provisional-peer-reviewed-toxicity-values-pprtvs; SUBSOURCE_URL=https://cfpub.epa.gov/ncea/pprtv/chemicalLanding.cfm?pprtv_sub_id=1556; TOXICOLOGICAL_EFFECT=increased incidence of focal degeneration of the nasal olfactory epithelium; STUDY_GROUP=PPRTV (CPHEA):15653365:M/F:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_36e146ddccfa5d268eaf9798c50e8a2f
ToxValDB_PPRTV_(CPHEA) RfC (provisional) =0.0002 mg/m3 Human inhalation - Toxicity Value LONG_REF=Miller et al. 1981; AUTHOR=Miller et al; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/640754bee4b08a6b3934b31e; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/pprtv/basic-information-about-provisional-peer-reviewed-toxicity-values-pprtvs; SUBSOURCE_URL=https://cfpub.epa.gov/ncea/pprtv/chemicalLanding.cfm?pprtv_sub_id=1556; TOXICOLOGICAL_EFFECT=Increase incidence of focal degeneration of the nasal olfactory epithelium in male/female mice; STUDY_GROUP=PPRTV (CPHEA):15653364:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_0444701204284853c78d1d2e3d8899ea
ToxValDB_PPRTV_(CPHEA) RfD (provisional) =0.2 mg/kg bw/day Human oral - Toxicity Value LONG_REF=Hellwig et al. 1997; AUTHOR=Hellwig et al; STORED_SOURCE_RECORD=https://clowder.edap-cluster.com/files/640754bee4b08a6b3934b31e; RECORD_SOURCE_LEVEL=Extraction document; SOURCE_URL=https://www.epa.gov/pprtv/basic-information-about-provisional-peer-reviewed-toxicity-values-pprtvs; SUBSOURCE_URL=https://cfpub.epa.gov/ncea/pprtv/chemicalLanding.cfm?pprtv_sub_id=1556; TOXICOLOGICAL_EFFECT=Pup toxicity in male/female rats; STUDY_GROUP=PPRTV (CPHEA):15653660:-:--; QC_CATEGORY=Manually extracted from unstructured data source; Source overall passed QC, and this record was manually checked; QC_STATUS=pass; SOURCE_HASH=ToxValhc_2b503e1ff0caed8834dfd379e43d5807
openFDA substances 4 endpoints
Source Endpoint Type Value Unit Species Route Duration Study Type Reference
openFDA substances FDA UNII substance identifier J94PBK7X8S UNII - - - chemical {"approval_status":null,"molecular_formula":"C3H4O2","source_table":"substance_identifiers_fda","substance_class":"chemical","unii_code":"J94PBK7X8S"}
openFDA substances FDA UNII substance identifier J94PBK7X8S UNII - - - chemical {"approval_status":null,"molecular_formula":"C3H4O2","source_table":"substance_identifiers_fda","substance_class":"chemical","unii_code":"J94PBK7X8S"}
openFDA substances FDA UNII substance identifier J94PBK7X8S UNII - - - chemical {"approval_status":null,"molecular_formula":"C3H4O2","source_table":"substance_identifiers_fda","substance_class":"chemical","unii_code":"J94PBK7X8S"}
openFDA substances FDA UNII substance identifier J94PBK7X8S UNII - - - chemical {"approval_status":null,"molecular_formula":"C3H4O2","source_table":"substance_identifiers_fda","substance_class":"chemical","unii_code":"J94PBK7X8S"}