Clear Search sequence regions


  • acidosis (1)
  • across (1)
  • activity (1)
  • compounds present (1)
  • dermal (1)
  • diglycolic acid (2)
  • glycol (20)
  • glycolic acid (3)
  • humans (4)
  • mice (2)
  • mono (2)
  • oxalates (4)
  • parent (1)
  • rabbits (2)
  • rats (3)
  • species (1)
  • species specificity (1)
  • toxic (2)
  • tri (1)
  • Sizes of these terms reflect their relevance to your search.

    This review summarizes the hazards, exposure and risk that are associated with ethylene glycols (EGs) in their intended applications. Ethylene glycol (EG; CAS RN 107-21-1) and its related oligomers include mono-, di-, tri-, tetra-, and penta-EG. All of the EGs are quickly and extensively absorbed following ingestion and inhalation, but not by the dermal route. Metabolism involves oxidation to the mono- and dicarboxylic acids. Elimination is primarily through the urine as the parent compound or the monoacid, and, in the case of EG, also as exhaled carbon dioxide. All EGs exert acute toxicity in a similar manner, characterized by CNS depression and metabolic acidosis in humans and rodents; the larger molecules being proportionally less acutely toxic on a strict mg/kg basis. Species differences exist in the metabolism and distribution of toxic metabolites, particularly with the formation of glycolic acids and oxalates (OX) from EG and diethylene glycol (DEG); OX are not formed to a significant degree in higher ethylene glycols. Among rodents, rats are more sensitive than mice, and males more sensitive than females to the acute and repeated-dose toxicity of EG. The metabolic formation of glycolic acid (GA), diglycolic acid (DGA), and OX are associated with nephrotoxicity in humans and rodents following single and repeated exposures. However, physiological and metabolic differences in the rate of formation of GA, DGA and OX and their distribution result in EG and DEG causing embryotoxicity in rats, but not rabbits. This rodent-specific sensitivity indicates that EG and its higher oligomers are not anticipated to be embryotoxic in humans at environmentally relevant doses. None of the compounds present developmental toxicity concerns at doses that do not also cause significant maternal toxicity, nor do any of the EGs cause adverse effects on fertility. The EGs are neither genotoxic nor carcinogenic. A read-across matrix is presented, which considers the common and distinct toxicological properties of each compound. It is concluded that EGs pose no risk to human health as a result of their intended use patterns. Copyright © 2017 The Authors. Published by Elsevier B.V. All rights reserved.

    Citation

    Jeff Fowles, Marcy Banton, Joanna Klapacz, Hua Shen. A toxicological review of the ethylene glycol series: Commonalities and differences in toxicity and modes of action. Toxicology letters. 2017 Aug 15;278:66-83

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 28689762

    View Full Text