N,N''-methylenebis[N'-[3-(hydroxymethyl)-2,5-dioxoimidazolidin-4-yl]urea]

Administrative data

Link to relevant study record(s)

Description of key information

The high water solubility (>1g/ml) and estimated low Kow (log Kow <0.9) of the substance being registered suggest significant bioavailability, with absorption being expected following ingestion.  Consideration of acute test data indicate generally low toxicity by all routes of administration: absorption and/or skin penetration may possibly be limited.  The substance acts as a formaldehyde donor: in dry powder form, formaldehyde may make up some 6.3-9.4 wt% of the substance (ISP company report, 2013) and in water further formaldehyde release occurs with one substance molecule having a potential for maximal release of four formaldehyde molecules (SCCNFP Opinion 586/02, 2002).  The observed (inherent) biodegradability and relative hydrolytic instability (estimated half-life 12h at neutral pH and 20.4C) of the substance support an expectation that enzymic and/or non-metabolic processes will lead to formaldehyde release.

The toxicological profile of the substance may primarily reflect the toxicity of formaldehyde: the effects on stomach lining (target organ fore- and glandular stomach) observed in subchronic oral toxicity studies of a close chemical analogue (and formaldehyde donor) supports this hypothesis since it resembles effects reported in repeat-dose oral toxicity studies of formaldehyde.  A 90-day rat oral NOAEL of 200 mg/kg/day (based on read-across) was concluded for the substance being registered here.

In vitro genotoxicity studies showed little difference in toxicity between treatments with and without rat liver derived S9 mix, giving no clear indication of hepatic metabolism of the substance.

Key value for chemical safety assessment

Bioaccumulation potential:

low bioaccumulation potential

Additional information

No detailed investigation of adsorption, metabolism and excretion in mammalian systems has been performed. Degradation of the substance within the body by metabolic or other processes can be expected, with associated release of formaldehyde. Little potential for bioaccumulation is indicated by the high water solubility and estimated low log Kow.

An evaluation of ADME data on hydrolysis products is considered to be sufficient to cover the endpoint ADME. Therefore an expert statement on toxicokinetics is attached.