The Exposure And Safety Estimation (EAS-E) Suite platform was developed by ARC Arnot Research and Consulting (ARC) to address some challenges for ecological and human health assessment. EAS-E Suite (pronounced “EASY Suite”) includes chemical information databases, quantitative structure activity relationships (QSARs) for predicting chemical information, and some relevant tools and models to support chemical hazard, exposure, and risk estimation.
EAS-E Suite quantifies the relationships between chemical production volumes, partitioning properties, degradation rates, fate and transport in natural and manufactured environments (i.e., indoors), human and ecological exposures, and the potential for adverse effects at a screening-level. EAS-E Suite contains chemical information required to use many environmental fate and exposure models, as well as bioaccumulation and physiologically based toxicokinetic (PBTK) models. Built in databases provide initial values to apply models coded within the EAS-E Suite platform. For chemicals that are not in the built-in databases users can enter a SMILES notation to obtain predictions from the IFSQSAR models to autoparameterize the various models in EAS-E Suite. The data can also be used to address data gaps in chemical evaluations and for applying other models that are not included in the EAS-E Suite platform.
- – It Integrates curated databases, validated QSARs, environmental fate, physiologically based toxicokinetics (PBTK), and exposure models for humans and ecological receptors.
- – The built-in databases for ca. 70,000 discrete organic chemicals include measured and predicted physical-chemical properties commonly required for chemical assessments and parameterizing models, e.g., molar mass, solubility, vapor pressure, partition coefficients (Kow, Kaw, Koa).
- – The built-in databases for ca. 70,000 discrete organic chemicals include measured and predicted half-life values commonly required for chemical assessments and parameterizing models, e.g., half-lives in air, water, soil, sediment and biotransformation half-lives in fish and mammals
- – The US EPA’s OPERA QSAR models are inlcuded for physical-chemical property and fish biotransformation half-life prediction
- – Iterative Fragment Selection (IFS) models & QSARINS models are included for biotransformation half-lives in fish and humans and total elimination half-lives in humans
- – The built-in databases and QSARs are used to auto-parameterize the models from a user-entered SMILES notation (or CAS or name), while allowing options for user-preferred inputs of select model input parameters
- – Users can choose the entire flow (e.g., from production volume to exposure and safety estimation) or just a particular model (e.g., RAIDAR-ICE for indoor fate and human exposure, or HTTK)
- – Can be expanded to include other models, tools and databases and customized to suit end-user preferences and assessment challenges