scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.FCT.2019.110819 |
P698 | PubMed publication ID | 31545997 |
P50 | author | Agnes L. Karmaus | Q39831384 |
Barbara A Wetmore | Q63350819 | ||
P2093 | author name string | Mansi Krishan | |
Kristin K Isaacs | |||
Michelle R Embry | |||
Alexandra E Turley | |||
P2860 | cites work | ToxCast Chemical Landscape: Paving the Road to 21st Century Toxicology | Q28025527 |
Data gaps in toxicity testing of chemicals allowed in food in the United States | Q30662042 | ||
Using ToxCast™ Data to Reconstruct Dynamic Cell State Trajectories and Estimate Toxicological Points of Departure | Q31006619 | ||
Scaling factors for the extrapolation of in vivo metabolic drug clearance from in vitro data: reaching a consensus on values of human microsomal protein and hepatocellularity per gram of liver. | Q31096663 | ||
tcpl: the ToxCast pipeline for high-throughput screening data | Q31140137 | ||
The toxicity data landscape for environmental chemicals | Q33455654 | ||
Endocrine profiling and prioritization of environmental chemicals using ToxCast data | Q33687961 | ||
In vitro screening of environmental chemicals for targeted testing prioritization: the ToxCast project | Q33789756 | ||
Integration of dosimetry, exposure, and high-throughput screening data in chemical toxicity assessment | Q34031014 | ||
The ToxCast program for prioritizing toxicity testing of environmental chemicals | Q34564990 | ||
Test driving ToxCast: endocrine profiling for 1858 chemicals included in phase II. | Q34979500 | ||
Incorporating High-Throughput Exposure Predictions With Dosimetry-Adjusted In Vitro Bioactivity to Inform Chemical Toxicity Testing | Q36204768 | ||
Using in vitro high throughput screening assays to identify potential endocrine-disrupting chemicals. | Q36537278 | ||
Improving the human hazard characterization of chemicals: a Tox21 update | Q36984065 | ||
On the Utility of ToxCast™ and ToxPi as Methods for Identifying New Obesogens. | Q37158812 | ||
Quantitative in vitro-to-in vivo extrapolation in a high-throughput environment | Q38218404 | ||
A 21st century roadmap for human health risk assessment | Q38234791 | ||
Risk assessment in the 21st century: roadmap and matrix. | Q38234793 | ||
Pyrithione, a zinc ionophore, inhibits NF-kappaB activation | Q38527829 | ||
High-throughput dietary exposure predictions for chemical migrants from food contact substances for use in chemical prioritization | Q38596889 | ||
Predicting organ toxicity using in vitro bioactivity data and chemical structure | Q38646520 | ||
Curation of food-relevant chemicals in ToxCast. | Q38912534 | ||
High throughput heuristics for prioritizing human exposure to environmental chemicals | Q39108369 | ||
Bioorganotin chemistry. Metabolism of organotin compounds in microsomal monooxygenase systems and in mammals | Q39127299 | ||
Effect of taurine on acinar cell apoptosis and pancreatic fibrosis in dibutyltin dichloride-induced chronic pancreatitis | Q39291949 | ||
Informing the Human Plasma Protein Binding of Environmental Chemicals by Machine Learning in the Pharmaceutical Space: Applicability Domain and Limits of Predictability | Q39340009 | ||
Relative impact of incorporating pharmacokinetics on predicting in vivo hazard and mode of action from high-throughput in vitro toxicity assays | Q39477437 | ||
Update on EPA's ToxCast program: providing high throughput decision support tools for chemical risk management. | Q39626913 | ||
Editor's Highlight: Analysis of the Effects of Cell Stress and Cytotoxicity on In Vitro Assay Activity Across a Diverse Chemical and Assay Space. | Q39747696 | ||
Evaluation of food-relevant chemicals in the ToxCast high-throughput screening program | Q39831317 | ||
Using ToxCast to Explore Chemical Activities and Hazard Traits: A Case Study With Ortho-Phthalates | Q39927114 | ||
MIGRESIVES: a research project on migration from adhesives in food-packaging materials in support of European legislation and standardization. | Q39927604 | ||
Requirement of caspase and p38MAPK activation in zinc-induced apoptosis in human leukemia HL-60 cells | Q40684583 | ||
A Comparison of ToxCast Test Results with In Vivo and Other In Vitro Endpoints for Neuro, Endocrine, and Developmental Toxicities: A Case Study Using Endosulfan and Methidathion | Q40897316 | ||
Metabolic disposition of pyrithiones | Q42253484 | ||
Pyrithione and 8-hydroxyquinolines transport lead across erythrocyte membranes | Q43295718 | ||
Assessment of di- and tri-butyltin interaction with skeletal muscle membranes | Q43744170 | ||
Activation of a calcium entry pathway by sodium pyrithione in the bag cell neurons of Aplysia | Q45015561 | ||
SHEDS-HT: an integrated probabilistic exposure model for prioritizing exposures to chemicals with near-field and dietary sources | Q46206576 | ||
Changes in liver volume from birth to adulthood: a meta-analysis. | Q51959232 | ||
Consensus Modeling of Median Chemical Intake for the U.S. Population Based on Predictions of Exposure Pathways | Q60367109 | ||
Comparison of hepatotoxicity caused by mono-, di- and tributyltin compounds in mice | Q72158184 | ||
Speciation of organotins in poly(vinyl chloride) products | Q72565609 | ||
Physiological parameters in laboratory animals and humans | Q72935917 | ||
P921 | main subject | exposure assessment | Q4008388 |
P304 | page(s) | 110819 | |
P577 | publication date | 2019-09-20 | |
P1433 | published in | Food and Chemical Toxicology | Q776926 |
P1476 | title | Incorporating new approach methodologies in toxicity testing and exposure assessment for tiered risk assessment using the RISK21 approach: Case studies on food contact chemicals | |
P478 | volume | 134 |
Q99413500 | Evaluating consumer exposure to disinfecting chemicals against coronavirus disease 2019 (COVID-19) and associated health risks | cites work | P2860 |
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