Abstract
Since the release of the U.S. National Academy’s report calling for toxicology to evolve from an observation-based to a mechanism-based science (National Research Council, 2007), scientific advances have shown that mechanistic approaches provide a deeper understanding of hazards associated with chemical exposures. New approach methodologies (NAMs) have emerged to assess the hazards and risks associated with exposure to anthropogenic and/or nonanthropogenic stressors within the context of reduce, refine, and replace (the 3Rs). Replacement refers to achieving a research goal without using animals. Reduction means applying methods that allow an investigator to obtain comparable information and precision using fewer animals. Refinement refers to changes in procedures that decrease or eliminate the animals’ pain, stress, and discomfort both during experimental procedures and in their daily social and physical environments (Russell & Burch, 1959). The development, acceptance and implementation of NAMs has become an international priority for human health and that of wildlife and ecosystems. The global commitment to nonanimal research is driven by societal values on animal welfare and the uncertainty of mammalian model species as reliable human surrogates. In addition, NAM-based information can potentially unite the different branches of toxicology by its relevance in protecting human health, wildlife, and ecosystems, thereby contributing to public safety, ecological resilience, and sustainability.