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September 11, 2019

EPA Administrator Signs Directive Intended to Reduce Animal Testing, Awards $4.25 Million for Research on Alternative Methods to Animal Testing

Lynn L. Bergeson Carla N. Hutton

The U.S. Environmental Protection Agency (EPA) issued a press release on September 10, 2019, announcing that EPA Administrator Andrew Wheeler signed a directive to prioritize efforts to reduce animal testing.  Administrator Wheeler also announced $4.25 million in funding to five universities to research the development and use of alternative test methods and strategies that reduce, refine, and/or replace vertebrate animal testing.  Administrative Wheeler directs the Office of Chemical Safety and Pollution Prevention (OCSPP) and the Office of Research and Development (ORD) “to prioritize ongoing efforts and to direct existing resources toward additional activities that will demonstrate measurable impacts in the reduction of animal testing while ensuring protection of human health and the environment.”  The directive states that EPA “will reduce its requests for, and [its] funding of, mammal studies by 30 percent by 2025 and eliminate all mammal study requests and funding by 2035.  Any mammal studies requested or funded by the EPA after 2035 will require Administrator approval on a case-by-case basis.”  Administrative Wheeler requests that OCSPP and ORD hold a joint animal conference on new approach methods (NAM), with the first conference to be held in 2019

Five universities were awarded grants through EPA’s Science to Achieve Results Program.  According to EPA, the research focuses on advancing the development and use of alternative test methods and strategies to reduce, refine, and/or replace vertebrate animal testing.  The grantees are advancing the science of non-vertebrate alternative test methods and strategies in chemical hazard assessment.  The grantees include:

  • Johns Hopkins University to develop a human-derived brain model to assess the mechanism by which environmental chemicals might cause developmental neurotoxicity;
     
  • Vanderbilt University to test their organ-on-a-chip to study the blood brain barrier and potential brain injury after organophosphate exposure;
     
  • Vanderbilt University Medical Center to use their Endo Chip technology to research how preexisting diseases affect cellular responses to environmental toxicants with a focus on reproductive disorders in women;
     
  • Oregon State University to develop in vitro test methods for fish species to screen chemicals in complex environmental mixtures; and
     
  • University of California Riverside to use human cells to develop a cost-effective end point to characterize potential skeletal embryotoxicants.