Menthol

Vapour pressure from L-Menthol for different temperatures:

Menthol is a solids in four different modifications. The melting point of the isomere is 31 - 43 ° C.

Hypothesis for the read-across approach:

REACH regulation (Corrigendum) EC 1907/2006 on page L 136/120: “Substances whose physicochemical, toxicological and ecotoxicological properties are likely to be similar or follow a regular pattern as a result of structural similarity may be considered as a group, or ‘category’ of substances. Application of the group concept requires that physicochemical properties, human health effects and environmental effects or environmental fate may be predicted from data for reference substance(s) within the group by interpolation to other substances in the group (read-across approach).”

Further, ECHA guidance document “Guidance on information requirements and chemical safety assessment – Chapter R.6: QSARs and grouping of chemicals (May, 2008)” provides information on the use of read-across (page 78) as follows: “In the read-across technique, endpoint information for one chemical is used to predict the same endpoint for another chemical, which is considered to be similar in some way (usually on the basis of structural similarity). In principle, read-across can be applied to characterise physico-chemical properties, environmental fate, human health effects and ecotoxicity.”

It can be stated that menthols act as a prime example of substances that are suitable for read-across since menthols are (stereo)isomeres and, thus ideally fulfill the recommended criteria of structural similarity. Further, the OECD SIDS report on menthols (2003) assessed data of the isomers L-menthol (CAS no. 2216-51-5), D-menthol (CAS no. 15356-60-2), the racemate and menthol (unspecified isomers; CAS no. 1490-04-6). The report concludes on page 4 that “the menthols can be considered as a category because of their similarity in physico-chemical, toxicological, ecotoxicological and environmental fate properties” which is another requirement to justify the application of the read-across approach.

In the OECD SIDS report (2003) the physical properties of the enantiomeric menthols are given to be identically (apart from their specific rotation). Racemats are described to differ from the optically active forms in, for example, their melting points. However, the report gives that the slight differences in the cited data are within the range of uncertainty of laboratory tests.

Thus, read-across is possible and data from Jordan (1954) on L-menthol (CAS no. 2216-51-5) was used vapour pressure of 1.33 hPa at 56°C and 1013 hPa at 212°C.

Validity of the model:

1. Defined Endpoint: Vapour pressure

2. Unambigous algorithm: The modified Grain method equation was used for calculation.

3. Applicability domain: Because an experimental boiling and melting point is available for the substance the applicablity domain is just described by the molecular weight range. With a molecular weight of 156.27 g/mol the substance is within the applicable range of 16 - 943 g/mol.

4. Statistical characteristics: Correlation coefficient of the total test set is r²= 0.949.

5. Mechanistic interpretation: The vapour pressure is related to fugacity models describing the distribution of the substance in the environment.

Adequacy of prediction: The result for DL-Menthol falls within the applicability domain described above and the estimation rules applied for the substance appears appropriate. Therefore the predicted value can be considered reliable yielding a useful result for further assessment.